Added(A)/Deleted(D) following books

 A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/README.txt
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/ch2_1.ipynb
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/ch3_1.ipynb
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/ch4_1.ipynb
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/ch5_1.ipynb
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/ch6_1.ipynb
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/ch7_1.ipynb
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/ch8_1.ipynb
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/ch9_1.ipynb
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/screenshots/ch2_1.png
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/screenshots/ch7_1.png
A  A_Course_In_Mechanical_Measurements_And_Instrumentation_by_A._K._Sawhney_And_P._Sawhney/screenshots/kVSv5.png
A  A_First_Course_on_Electrical_Drives_by_S._K._Pillai/CHAPTER2_1.ipynb
A  A_First_Course_on_Electrical_Drives_by_S._K._Pillai/CHAPTER4_2.ipynb
A  A_First_Course_on_Electrical_Drives_by_S._K._Pillai/CHAPTER5_2.ipynb
A  A_First_Course_on_Electrical_Drives_by_S._K._Pillai/CHAPTER6_2.ipynb
A  A_First_Course_on_Electrical_Drives_by_S._K._Pillai/CHAPTER7_2.ipynb
A  A_First_Course_on_Electrical_Drives_by_S._K._Pillai/README.txt
A  A_First_Course_on_Electrical_Drives_by_S._K._Pillai/screenshots/CHAP2.png
A  A_First_Course_on_Electrical_Drives_by_S._K._Pillai/screenshots/CHAP4.png
A  A_First_Course_on_Electrical_Drives_by_S._K._Pillai/screenshots/CHAP5.png
D  A_First_course_in_Programming_with_C/Chapter14.ipynb
M  A_First_course_in_Programming_with_C_by_T_Jeyapoovan/Chapter14_2.ipynb
A  A_First_course_in_Programming_with_C_by_T_Jeyapoovan/README.txt
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT1.2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT1.3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT1.7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT1_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT1_3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT1_7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.10.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.11.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.13.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.14.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.15.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.16.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.17.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.18.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.4.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.5.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.6.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.8.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2.9.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_10.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_11.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_13.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_14.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_15.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_16.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_17.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_18.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_4.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_5.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_6.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_8.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT2_9.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3.1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3.10.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3.2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3.3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3.4.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3.6.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3.7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3.8.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3.9.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3_10.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3_3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3_4.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3_6.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3_7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3_8.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT3_9.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4.1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4.2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4.3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4.4.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4.5.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4.6.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4.7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4.8.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4.9.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4_3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4_4.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4_5.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4_6.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4_7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4_8.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/CHAPT4_9.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/screenshots/Fig1.png
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/screenshots/Fig1_1.png
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/screenshots/Fig2.png
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/screenshots/Fig2_1.png
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/screenshots/Fig3.png
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta,_U_S_Bhatnagar/screenshots/Fig3_1.png
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1.2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1.2_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1.2_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1.3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1.3_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1.3_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1.7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1.7_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1.7_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1_2_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1_3.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1_3_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1_7.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT1_7_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.10.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.10_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.10_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.11.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.11_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.11_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.13.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.13_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.13_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.14.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.14_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.14_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.15.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.15_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.15_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.16.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.16_1.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.16_2.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.17.ipynb
A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.17_1.ipynb
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A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.18.ipynb
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A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.2.ipynb
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A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2.5.ipynb
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A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT2_5.ipynb
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A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT3.2.ipynb
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A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT3.3.ipynb
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A  A_Textbook_on_Power_System_Engineering_by_A_Chakrabarti,_M_L_Soni,_P_V_Gupta_&_U_S_Bhatnagar/CHAPT3.6.ipynb
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A  Electrical_Machines_by_R._K._Srivastava/README.txt
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A  Electrical_Machines_by_S._K._Bhattacharya/README.txt
A  Electrical_Network_by_R._Singh/Chapter1.ipynb
A  Electrical_Network_by_R._Singh/Chapter10.ipynb
A  Electrical_Network_by_R._Singh/Chapter11.ipynb
A  Electrical_Network_by_R._Singh/Chapter12.ipynb
A  Electrical_Network_by_R._Singh/Chapter2.ipynb
A  Electrical_Network_by_R._Singh/Chapter3.ipynb
A  Electrical_Network_by_R._Singh/Chapter4.ipynb
A  Electrical_Network_by_R._Singh/Chapter6.ipynb
A  Electrical_Network_by_R._Singh/Chapter7.ipynb
A  Electrical_Network_by_R._Singh/Chapter8.ipynb
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A  Electrical_Network_by_R._Singh/screenshots/chapter6.png
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A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter1.ipynb
A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter10.ipynb
A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter11.ipynb
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A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter13.ipynb
A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter14.ipynb
A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter15.ipynb
A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter16.ipynb
A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter17.ipynb
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A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter8.ipynb
A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/Chapter9.ipynb
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A  Electronic_Circuit_Analysis_And_Design_by_D._A._Neamen/screenshots/Chapter5.png
A  Electronic_Circuits_by_Dr._Sanjay_Sharma/README.txt
A  Electronic_Circuits_by_M._H._Tooley/Chapter1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter12.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter12_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter13.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter13_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter1_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter2.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter2_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter3.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter3_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter4.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter4_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter5.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter5_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter7.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter7_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter8.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter8_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter9.ipynb
A  Electronic_Circuits_by_M._H._Tooley/Chapter9_1.ipynb
A  Electronic_Circuits_by_M._H._Tooley/chapter6.ipynb
A  Electronic_Circuits_by_M._H._Tooley/chapter6_1.ipynb
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A  Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter2.png
A  Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter3.png
A  Electronic_Circuits_by_M._H._Tooley/screenshots/chapter1.png
A  Electronic_Circuits_by_M._H._Tooley/screenshots/chapter2.png
A  Electronic_Circuits_by_M._H._Tooley/screenshots/chapter3.png
A  Electronic_Devices_by_K._C._Nandi/README.txt
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_01_1.ipynb
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_02_1.ipynb
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_03_1.ipynb
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_04_1.ipynb
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_05_1.ipynb
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_06_1.ipynb
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_07_1.ipynb
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_08_1.ipynb
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_10_1.ipynb
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/README.txt
A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/screenshots/snap1.png
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A  Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/screenshots/snap3_2.png
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/Chapter_2.ipynb
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/Chapter_3.ipynb
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/Chapter_4.ipynb
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/Chapter_5.ipynb
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/Chapter_6.ipynb
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/Chapter_7.ipynb
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/Chapter_8.ipynb
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/README.txt
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/screenshots/ch3.png
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/screenshots/ch5.png
A  Electronic_Instrumentation_And_Measurements_by_U.A._Bakshi,_A.V._Bakshi,_K.A._Bakshi/screenshots/ch7.png
D  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/R.K.RAJPUTCHAPTER_12.ipynb
D  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/R.K.RAJPUTCHAPTER_8.ipynb
D  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/R.K.RAJPUT_CHAPTER_1_.ipynb
D  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/R.K.RAJPUT_CHAPTER_2_.ipynb
D  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/R.K.RAJPUT_CHAPTER_7.ipynb
D  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/R.K._RAJPUT_CHAPTER_6.ipynb
D  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/R.k.Rajput5.ipynb
A  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/screenshots/r.k.rajput12_1.png
A  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/screenshots/r.k_rajput_1.png
A  Electronic_Measurements_and_Instrumentation_by_Er.R.K.Rajput/screenshots/r.krajput_1.png
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter1.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter10.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter11.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter13.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter14.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter2.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter3.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter4.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter5.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter6.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter7.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter8.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/Chapter9.ipynb
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/screenshots/chapter1.png
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/screenshots/chapter2.png
A  Electronics_Devices_and_Circuits_by_G._S._N._Raju/screenshots/chapter3.png
A  Electronics_Engineering_by_P._Raja/chapter_1.ipynb
A  Electronics_Engineering_by_P._Raja/chapter_2.ipynb
A  Electronics_Engineering_by_P._Raja/chapter_3.ipynb
A  Electronics_Engineering_by_P._Raja/chapter_4.ipynb
A  Electronics_Engineering_by_P._Raja/chapter_5.ipynb
A  Electronics_Engineering_by_P._Raja/chapter_6.ipynb
A  Electronics_Engineering_by_P._Raja/chapter_7.ipynb
A  Electronics_Engineering_by_P._Raja/chapter_8.ipynb
A  Electronics_Engineering_by_P._Raja/chapter_9.ipynb
A  Electronics_Engineering_by_P._Raja/screenshots/7.png
A  Electronics_Engineering_by_P._Raja/screenshots/snap-3.png
A  Electronics_Engineering_by_P._Raja/screenshots/snap-6.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/README.txt
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter10.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter10_1.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter10_2.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter10_3.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter10_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter10_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter11.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter11_1.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter11_2.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter11_3.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter11_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter11_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter12.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter12_1.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter12_2.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter12_3.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter12_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter12_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter13.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter13_1.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter13_2.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter13_3.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter13_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter13_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter14.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter14_1.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter14_3.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter14_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter14_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter15.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter15_1.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter15_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter15_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter16.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter16_1.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter16_3.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter16_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter16_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter16_6.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter17.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter17_1.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter17_6.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter18.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter19.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter19_6.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter19_7.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter1_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter2.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter2_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter3.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter4.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter5.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter5_3.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter5_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter6.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter7.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter7_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter7_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter8.ipynb
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter8_3.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter8_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter8_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter9.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter9_1.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter9_2.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter9_3.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter9_4.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/chapter9_5.ipynb
A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1441820728.67.dat
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1441820728.67_16.dat
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1443638722.05_14.dat
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1443638722.05_4.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1443638722.05_5.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1443638722.05_6.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1443638722.05_7.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1443638722.05_8.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1443638722.05_9.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1444392978.46.dat
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1444392978.46_6.dat
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1444392978.47_6.dat
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1445188737.3_3.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1445188737.3_4.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/local_data-1445188737.3_5.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(B.M.D).png
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A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(B.M.D)_2.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(B.M.D)_3.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(B.M.D)_4.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(B.M.D)_5.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(S.F.D).png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(S.F.D)_1.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(S.F.D)_2.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(S.F.D)_3.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(S.F.D)_4.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.2(S.F.D)_5.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.3(B.M.D).png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.3(B.M.D)_1.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.3(B.M.D)_2.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.3(B.M.D)_3.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.3(B.M.D)_4.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/Ex8.3(B.M.D)_5.png
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/local_data-1443638722.05.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/local_data-1443638722.05_1.dat
A  Engineering_Mechanics,_Schaum_Series_by_McLean/screenshots/local_data-1443638722.05_2.dat
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/chapter1.ipynb
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/chapter2.ipynb
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/chapter3.ipynb
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/chapter4.ipynb
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/chapter5.ipynb
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/chapter6.ipynb
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/chapter7.ipynb
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/screenshots/X-ray_diffraction.png
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/screenshots/ultrasonics.png
A  Engineering_Physics_(Volume-2)_by_S.K._Gupta/screenshots/wave_mechanics.png
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/README.txt
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1_2.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1_3.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2_2.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2_3.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3_2.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3_3.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4_2.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4_3.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6_2.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6_3.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7_2.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7_3.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8_2.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8_3.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter1_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter2.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter2_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter3.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter3_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter4.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter4_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter6.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter6_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter7.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter7_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter8.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter8_1.ipynb
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/screenshots/Screenshot_(100).png
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/screenshots/Screenshot_(100)_1.png
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/screenshots/Screenshot_(101).png
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/screenshots/Screenshot_(101)_1.png
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/screenshots/Screenshot_(102).png
A  Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/screenshots/Screenshot_(102)_1.png
A  Fiber_Optics_Communication_by_H._Kolimbiris/README.txt
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter10_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter11_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter12_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter13_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter1_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter2_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter3_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter4_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter5_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter6_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter7_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/chapter9_1.ipynb
A  Fiber_Optics_Communication_by_H._Kolimbiris/screenshots/1.PNG
A  Fiber_Optics_Communication_by_H._Kolimbiris/screenshots/2.PNG
A  Fiber_Optics_Communication_by_H._Kolimbiris/screenshots/3.PNG
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_1.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_10.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_2.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_3.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_4.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_5.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_6.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_7.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_8.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/Chapter_9.ipynb
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/README.txt
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/screenshots/4-1.png
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/screenshots/5-2.png
A  Fundamentals_Of_Electronic_Devices_And_Circuits_by_J._B._Gupta/screenshots/7-1.png
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/chapter_1.ipynb
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/chapter_2.ipynb
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/chapter_3.ipynb
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/chapter_4.ipynb
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/chapter_5.ipynb
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/chapter_6.ipynb
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/chapter_7.ipynb
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/chapter_8.ipynb
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/screenshots/1.png
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/screenshots/6.png
A  Fundamentals_Of_Electronics_Devices_by_Dr._K._C._Nandi/screenshots/7.png
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/Chapter1.ipynb
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/Chapter10.ipynb
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/Chapter2.ipynb
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/Chapter3.ipynb
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/Chapter4.ipynb
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/Chapter5.ipynb
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/Chapter6.ipynb
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/Chapter7.ipynb
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/Chapter9.ipynb
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/screenshots/Chapter1.png
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/screenshots/Chapter2.png
A  Fundamentals_of_Nuclear_Science_and_Engineering_by_J._K._Shultis_and_R._E._Faw/screenshots/Chapter3.png
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/ch1.ipynb
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/ch2.ipynb
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/ch3.ipynb
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/ch4.ipynb
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/ch5.ipynb
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/ch6.ipynb
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/ch8.ipynb
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/ch9.ipynb
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/chA.ipynb
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A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/screenshots/ch5.png
A  Heat_and_Thermodynamics_by__Brijlal_and_N._Subrahmanyam/screenshots/ch8.png
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/Chapter_12_High_Voltage_cables.ipynb
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/Chapter_16_High_Voltage_Genration.ipynb
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/Chapter_19_Applications_of_High_Voltage_Engineering_in_Industries.ipynb
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/Chapter_2_Electric_Fields.ipynb
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/Chapter_3_Ionization_and_Deionization_Processes_in_gases.ipynb
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/Chapter_4_Electrical_Breakdown_of_Gases.ipynb
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/Chapter_5_The_Corona_Discharge.ipynb
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/README.txt
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/screenshots/Screen_Shot_2015-11-18_at_2.37.37_pm.png
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/screenshots/Screen_Shot_2015-11-18_at_2.37.51_pm.png
A  High_Voltage_Engineering_Theory_and_Practice_by_M._A._Salam,_H._Anis,_A._El_Morshedy_and_R._Radwan/screenshots/Screen_Shot_2015-11-18_at_2.38.11_pm.png
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER1_1.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER1_2.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER2_1.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER2_2.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER3_1.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER3_2.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER4_1.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER4_2.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER6_1.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER6_2.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER7_1.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/CHAPTER7_2.ipynb
A  High_Voltage_Engineering_by__C._L._Wadhwa/README.txt
A  High_Voltage_Engineering_by__C._L._Wadhwa/screenshots/chap1.png
A  High_Voltage_Engineering_by__C._L._Wadhwa/screenshots/chap1_1.png
A  High_Voltage_Engineering_by__C._L._Wadhwa/screenshots/chap3.png
A  High_Voltage_Engineering_by__C._L._Wadhwa/screenshots/chap3_1.png
A  High_Voltage_Engineering_by__C._L._Wadhwa/screenshots/chap7.png
A  High_Voltage_Engineering_by__C._L._Wadhwa/screenshots/chap7_1.png
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_01_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_01_2.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_01_3.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_02_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_03_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_04_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_05_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_06_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_08_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_10_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_12_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_13_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/Ch_14_1.ipynb
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/README.txt
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/screenshots/snap1_1.png
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/screenshots/snap4_1.png
A  Integrated_Circuits_by_Dr._Sanjay_Sharma/screenshots/snap5_1.png
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/README.txt
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch10_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch10_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch11_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch11_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch12_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch12_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch14_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch14_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch15_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch15_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch16_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch16_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch17_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch17_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch18_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch18_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch1_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch1_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch26_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch26_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch27_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch27_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch2_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch2_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch3_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch3_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch5_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch5_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch7_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch7_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch8_1.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/ch8_2.ipynb
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/screenshots/ch1.png
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/screenshots/ch12.png
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/screenshots/ch12_1.png
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/screenshots/ch1_1.png
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/screenshots/ch2.png
A  Internal_Combustion_Engine__by_M._l._Mathur_and_R._P._Sharma/screenshots/ch2_1.png
A  Internal_Combustion_Engines_by_H._B._Keswani/README.txt
A  Internal_Combustion_Engines_by_H._B._Keswani/ch1.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch11.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch14.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch15.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch16.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch18.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch19.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch23.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch25.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch26.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch3.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch4.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch5.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch6.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch8.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/ch9.ipynb
A  Internal_Combustion_Engines_by_H._B._Keswani/screenshots/ch26.png
A  Internal_Combustion_Engines_by_H._B._Keswani/screenshots/ch3.png
A  Internal_Combustion_Engines_by_H._B._Keswani/screenshots/ch9.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter10_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter10_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter10_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter10_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter11_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter11_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter11_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter11_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter12_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter12_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter12_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter12_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_10.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_11.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_12.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_13.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_14.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_15.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_16.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_17.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_18.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_5.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_6.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_7.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_8.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter1_9.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter2_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter2_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter2_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter2_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter3_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter3_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter3_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter3_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter4_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter4_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter4_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter4_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter5_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter5_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter5_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter5_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter6_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter6_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter6_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter6_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter7_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter7_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter7_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter7_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter8_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter8_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter8_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter8_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter9_1.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter9_2.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter9_3.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/Chapter9_4.ipynb
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/README.txt
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter10_1.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter10_2.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter10_3.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter10_4.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter3_1.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter3_2.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter3_3.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter3_4.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter4_1.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter4_2.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter4_3.png
A  Introduction_To_Fluid_Mechanics_by_R._W._Fox_And_A._T._McDonald/screenshots/chapter4_4.png
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter1.ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter2(PartB).ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter2.ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter3(partB).ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter3.ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter4(PartB).ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter4.ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter5.ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter6.ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/Chapter7.ipynb
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/screenshots/chapter1.png
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/screenshots/chapter2.png
A  Introduction_To_Mechanical_Engineering_by_S._Chandra_And_O._Singh/screenshots/chapter3.png
A  Introduction_to_Electric_Drives_by_J._S._Katre/AppendixB.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/AppendixB_1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter10.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter10_1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter10_2.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter1_1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter1_2.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter2.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter2_1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter2_2.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter3.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter3_1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter3_2.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter5.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter5_1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter5_2.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter6.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter6_1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter6_2.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter8.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter8_1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter8_2.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter9.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter9_1.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/chapter9_2.ipynb
A  Introduction_to_Electric_Drives_by_J._S._Katre/screenshots/ch6_VLdc_VLrms.png
A  Introduction_to_Electric_Drives_by_J._S._Katre/screenshots/ch6_VLdc_VLrms_1.png
A  Introduction_to_Electric_Drives_by_J._S._Katre/screenshots/ch6_VLdc_VLrms_2.png
A  Introduction_to_Electric_Drives_by_J._S._Katre/screenshots/ch6_variation_of_RF_FF.png
A  Introduction_to_Electric_Drives_by_J._S._Katre/screenshots/ch6_variation_of_RF_FF_1.png
A  Introduction_to_Electric_Drives_by_J._S._Katre/screenshots/ch6_variation_of_RF_FF_2.png
A  Introduction_to_Electric_Drives_by_J._S._Katre/screenshots/ch_3_variation_avg_rms_load_V.png
A  Introduction_to_Electric_Drives_by_J._S._Katre/screenshots/ch_3_variation_avg_rms_load_V_1.png
A  Introduction_to_Electric_Drives_by_J._S._Katre/screenshots/ch_3_variation_avg_rms_load_V_2.png
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/Chapter9.ipynb
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/chapter1.ipynb
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/chapter2.ipynb
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/chapter3.ipynb
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/chapter4.ipynb
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/chapter6.ipynb
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/chapter7.ipynb
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/chapter8.ipynb
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/chapter_5.ipynb
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/screenshots/ex1.2.png
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/screenshots/ex3.13.png
A  Introductory_Methods_Of_Numerical_Analysis__by_S._S._Sastry/screenshots/ex6.7.png
A  Linear_Integrated_Circuits_by_J._B._Gupta/README.txt
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter01_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter01_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter02_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter02_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter03_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter03_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter04_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter04_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter05_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter05_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter06_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter06_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter07_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter07_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter08_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter08_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter09_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter09_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter10_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter10_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter11_1.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/chapter11_2.ipynb
A  Linear_Integrated_Circuits_by_J._B._Gupta/screenshots/5_14.png
A  Linear_Integrated_Circuits_by_J._B._Gupta/screenshots/5_14_1.png
A  Linear_Integrated_Circuits_by_J._B._Gupta/screenshots/5_15.png
A  Linear_Integrated_Circuits_by_J._B._Gupta/screenshots/5_15_1.png
A  Linear_Integrated_Circuits_by_J._B._Gupta/screenshots/per_error_1.png
A  Linear_Integrated_Circuits_by_J._B._Gupta/screenshots/per_error_2.png
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER10.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER13.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER14.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER15.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER16.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER18.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER19.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER2.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER21.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER23.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER24_.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER26.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER30.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER31.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER33.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER36.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/CHAPTER9.ipynb
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/screenshots/CHAP10.png
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/screenshots/CHAP16.png
A  Manufacturing_Engineering_&_Technology_by__S._Kalpakjian_and_S._R._Schmid/screenshots/CHAP19.png
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch2.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch2_1.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch3.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch3_1.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch4.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch4_1.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch5.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch5_1.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch6.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch6_1.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch7.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/ch7_1.ipynb
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/screenshots/FricCoeff.png
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/screenshots/FricCoeff_1.png
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/screenshots/fillingtime.png
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/screenshots/fillingtime_1.png
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/screenshots/millPOwer.png
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/screenshots/millPOwer_1.png
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter10.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter11.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter12.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter13.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter14.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter15.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter16.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter17.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter2.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter3.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter4.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter5.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter6.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter7.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter8.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/Chapter9.ipynb
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/screenshots/Chapter10.png
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/screenshots/Chapter11.png
A  Materials_Science_and_Engineering_-_A_First_Course_by_V._Raghavan/screenshots/Chapter12.png
A  Materials_Science_by_Dr._M._Arumugam/Chapter10_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter12_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter1_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter2_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter3_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter4_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter5_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter6_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter7_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter8_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/Chapter9_1.ipynb
A  Materials_Science_by_Dr._M._Arumugam/README.txt
A  Materials_Science_by_Dr._M._Arumugam/screenshots/11.png
A  Materials_Science_by_Dr._M._Arumugam/screenshots/22.png
A  Materials_Science_by_Dr._M._Arumugam/screenshots/33.png
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/Chapter_2_Generalized_Configurations_and_Functional_Descriptions_of_Measuring_Instruments.ipynb
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/Chapter_3_Generalized_Performance_Characteristics_of_Instruments.ipynb
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/Chapter_4_Relative_Velocity_Translational_and_Rotational.ipynb
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/Chapter_5_Force_Torque_and_Shaft_power_Measurement.ipynb
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/Chapter_6_Pressure_and_Sound_Measurement.ipynb
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/Chapter_7_Flow_Measurement.ipynb
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/Chapter_8_Temperature_and_Heat-Flux_Measurement.ipynb
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/screenshots/cha3.png
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/screenshots/cha4.png
A  Measurement_Systems_by_E._O._Doebelin_And_D._N._Manik/screenshots/cha5.png
A  Mechanical_Metallurgy_by_George_E._Dieter/README.txt
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/AppendixA.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/AppendixA_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/AppendixA_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/AppendixA_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_10.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_11.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_12.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_13.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_14.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_4.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_5.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_6.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_7.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_8.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter01_9.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter02.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter02_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter02_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter02_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter03.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter03_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter03_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter03_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter04.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter04_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter04_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter04_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter05.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter05_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter05_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter05_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter06.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter06_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter06_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter06_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter07.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter07_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter07_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter07_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter08.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter08_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter08_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter08_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter09.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter09_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter09_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter09_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter10.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter10_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter10_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter10_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter11.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter11_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter11_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter11_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter12.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter12_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter12_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter12_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter13.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter13_1.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter13_2.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/Chapter13_3.ipynb
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/README.txt
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/Bedning_Moment_Diagram.png
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/Bending.jpg
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/Bending_1.jpg
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/Bending_Moment_1.jpg
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/Bending_Moment_Diagram.png
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/ShearForce_1.jpg
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/Shear_Force_2.jpg
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/Shear_Force_Diagram.png
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/bedning_2.jpg
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/bedning_2_1.jpg
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/shear_1.jpg
A  Mechanics_of_Materials_by_Pytel_and_Kiusalaas/screenshots/shear_1.tiff
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter10_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter11_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter12_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter14_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter1_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter2_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter3_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter4_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter5_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter6_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter7_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter8_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/Chapter9_1.ipynb
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/README.txt
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/screenshots/10.3.png
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/screenshots/5.2.png
A  Microelectronic_Circuits_by_A.S._Sedra_and_K.C._Smith/screenshots/5.4.png
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/README.txt
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter10.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter10_1.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter10_2.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter11.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter11_1.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter11_2.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter12.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter12_1.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter12_2.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter2.ipynb
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A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter3.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter3_1.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter3_2.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter4.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter4_1.ipynb
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A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter5.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter5_1.ipynb
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A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter6.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter6_1.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter6_2.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter7.ipynb
A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter7_1.ipynb
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A  Microwave_Devices_And_Circuits_by_S._Y._Liao/chapter9_1.ipynb
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A  Modern_Electronic_Instrumentation_And_Measurement_Techniques_by_A._D._Helfrick_And_W._D._Cooper/Chapter1.ipynb
A  Modern_Electronic_Instrumentation_And_Measurement_Techniques_by_A._D._Helfrick_And_W._D._Cooper/Chapter11.ipynb
A  Modern_Electronic_Instrumentation_And_Measurement_Techniques_by_A._D._Helfrick_And_W._D._Cooper/Chapter12.ipynb
A  Modern_Electronic_Instrumentation_And_Measurement_Techniques_by_A._D._Helfrick_And_W._D._Cooper/Chapter14.ipynb
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A  Non-conventional_Energy_Sources_by_G._D._Rai/Chapter10.ipynb
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A  OP_Amps_and_Linear_Integrated_Circuits:_Concepts_and_Applications_by_James_M._Fiore/README.txt
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A  OP_Amps_and_Linear_Integrated_Circuits:_Concepts_and_Applications_by_James_M._Fiore/ch11.ipynb
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A  OP_Amps_and_Linear_Integrated_Circuits:_Concepts_and_Applications_by_James_M._Fiore/ch12.ipynb
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A  OP_Amps_and_Linear_Integrated_Circuits:_Concepts_and_Applications_by_James_M._Fiore/ch3.ipynb
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A  OP_Amps_and_Linear_Integrated_Circuits:_Concepts_and_Applications_by_James_M._Fiore/ch4.ipynb
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A  OP_Amps_and_Linear_Integrated_Circuits:_Concepts_and_Applications_by_James_M._Fiore/ch6.ipynb
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A  OP_Amps_and_Linear_Integrated_Circuits:_Concepts_and_Applications_by_James_M._Fiore/ch8.ipynb
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A  OP_Amps_and_Linear_Integrated_Circuits:_Concepts_and_Applications_by_James_M._Fiore/ch9.ipynb
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A  Optical_Communication_by_R._S._Prasad,_Gurjit_Kaur/README.txt
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A  Optical_Communication_by_R._S._Prasad,_Gurjit_Kaur/chapter10.ipynb
A  Optical_Communication_by_R._S._Prasad,_Gurjit_Kaur/chapter2.ipynb
A  Optical_Communication_by_R._S._Prasad,_Gurjit_Kaur/chapter4.ipynb
A  Optical_Communication_by_R._S._Prasad,_Gurjit_Kaur/chapter5.ipynb
A  Optical_Communication_by_R._S._Prasad,_Gurjit_Kaur/chapter6.ipynb
A  Optical_Communication_by_R._S._Prasad,_Gurjit_Kaur/chapter7.ipynb
A  Optical_Communication_by_R._S._Prasad,_Gurjit_Kaur/chapter8.ipynb
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A  Optical_fiber_communication_by_gerd_keiser/chapter14.ipynb
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A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter1.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter10.ipynb
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A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter4.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter4_1.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter5.ipynb
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A  Physics_Textbook_Part-I_for_class_XI_by_NCERT_by_Chief_Editor_-_Naresh_Yadav/Chapter2.ipynb
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M  Practical_C_Programming/numbers.dat
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A  Principles_And_Modern_Applications_Of_Mass_Transfer_Operations/backup/chapter3.ipynb
A  Principles_Of_Electric_Machines_And_Power_Electronics_by_P._C._Sen/Chapter10_Power_Semiconductor_Converters.ipynb
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A  Principles_Of_Electric_Machines_And_Power_Electronics_by_P._C._Sen/Chapter3_Electromechanical_Energy_Conversion.ipynb
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A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/README.txt
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch10_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch10_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch11_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch11_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch12_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch12_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch13_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch13_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch14_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch14_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch15_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch15_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch1_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch1_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch2_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch2_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch3_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch3_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch4_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch4_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch5_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch5_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch6_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch6_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch7_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch7_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch8_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch8_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch9_1.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/ch9_2.ipynb
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/screenshots/TvsuT-t1_1.png
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/screenshots/TvsuT-t1_2.png
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/screenshots/tVsut-T12_1.png
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A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/screenshots/tvsV2t1_1.png
A  Principles_of_Communication_Systems__by_H._Taub_and_D._L._Schilling/screenshots/tvsV2t1_2.png
A  Principles_of_Electrical_Engineering_Materials_by_S._O._Kasap_/ch1.ipynb
A  Principles_of_Electrical_Engineering_Materials_by_S._O._Kasap_/ch2.ipynb
A  Principles_of_Electrical_Engineering_Materials_by_S._O._Kasap_/ch3.ipynb
A  Principles_of_Electrical_Engineering_Materials_by_S._O._Kasap_/ch4.ipynb
A  Principles_of_Electrical_Engineering_Materials_by_S._O._Kasap_/ch5.ipynb
A  Principles_of_Electrical_Engineering_Materials_by_S._O._Kasap_/ch6.ipynb
A  Principles_of_Electrical_Engineering_Materials_by_S._O._Kasap_/ch7.ipynb
A  Principles_of_Electrical_Engineering_Materials_by_S._O._Kasap_/ch8.ipynb
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A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/README.txt
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch10_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch11_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch12_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch13_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch2_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch3_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch4_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch5_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch6_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch7_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch8_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/ch9_1.ipynb
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/screenshots/S-parameters_1.png
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/screenshots/load_imp_1.png
A  Radio_-_Frequency_And_Microwave_Communication_Circuits_by_D._K._Mishra/screenshots/polarization_loss_factor_1.png
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_10_Kinetic_Theory_of_Gases.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_10_Kinetic_Theory_of_Gases_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_11_Thermodynamics.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_11_Thermodynamics_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_12_Electricity.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_12_Electricity_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_13_Electric_Current.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_13_Electric_Current_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_14_Magnetism.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_14_Magnetism_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_15_Electromagnetic_Induction.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_15_Electromagnetic_Induction_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_16_Waves.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_16_Waves_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_17_Lenses.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_17_Lenses_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_18_Quantum_Physics.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_18_Quantum_Physics_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_19_The_Nucleus.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_19_The_Nucleus_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_1_Physical_Quantities.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_1_Physical_Quantities_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_21_Theory_of_The_Atom.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_21_Theory_of_The_Atom_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_25_Stoichiometry.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_25_Stoichiometry_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_26_Solutions.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_26_Solutions_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_27_Solutions.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_27_Solutions_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_28_Acids_and_Bases.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_28_Acids_and_Bases_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_2_Motion_in_a_straight_line.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_2_Motion_in_a_straight_line_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_30_Electrochemistry.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_30_Electrochemistry_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_34_The_Atmosphere.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_34_The_Atmosphere_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_3_The_Laws_of_Motion.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_3_The_Laws_of_Motion_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_40_The_Earths_Interior.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_40_The_Earths_Interior_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_4_Circular_Motion_and_Gravitation.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_4_Circular_Motion_and_Gravitation_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_5_Energy.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_5_Energy_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_6_Momentum.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_6_Momentum_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_7_Relativity.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_7_Relativity_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_8_Fluids.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_8_Fluids_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_9_Head.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/Chapter_9_Head_1.ipynb
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/README.txt
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A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/screenshots/ch2_1.png
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/screenshots/ch_15.png
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/screenshots/ch_15_1.png
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/screenshots/ch_25.png
A  Schaum's_Outline_Of_Physical_Science_by_A._Beiser/screenshots/ch_25_1.png
M  Schaum's_Outlines:_Programming_with_C++/ch3.ipynb
M  Schaum's_Outlines:_Programming_with_C++/ch4.ipynb
M  Schaum's_Outlines:_Programming_with_C++/ch6.ipynb
M  Schaum's_Outlines:_Programming_with_C++/ch9.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/Chapter10.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/chapter1.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/chapter11.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/chapter2.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/chapter3.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/chapter5.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/chapter6.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/chapter7.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/chapter8.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/chapter9.ipynb
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/screenshots/chapter1.png
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/screenshots/chapter10.png
A  Semiconductor_Devices_Basic_Principle_by_J._Singh/screenshots/chapter6.png
A  Short_Course_by_e/hemla.ipynb
A  Short_Course_by_e/hemla_1.ipynb
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A  Short_Course_by_e/screenshots/warning_1.png
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A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter02.ipynb
A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter03.ipynb
A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter04.ipynb
A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter05.ipynb
A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter06.ipynb
A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter07.ipynb
A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter08.ipynb
A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter09.ipynb
A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter10.ipynb
A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/Chapter11.ipynb
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A  Solid_State_Devices_and_Circuits___by_V._Chaudhary_and_H._K._Maity/screenshots/Capture10.png
A  Solid_State_Devices_and_Materials_by_R._K._Singh_and_D._S._Chauhan/README.txt
A  Special_Electrical_Machines_by_S.P._Burman/README.txt
A  Special_Electrical_Machines_by_S.P._Burman/chapter01.ipynb
A  Special_Electrical_Machines_by_S.P._Burman/chapter02.ipynb
A  Special_Electrical_Machines_by_S.P._Burman/chapter03.ipynb
A  Special_Electrical_Machines_by_S.P._Burman/chapter04.ipynb
A  Special_Electrical_Machines_by_S.P._Burman/screenshots/ResolShaftSpeed3.png
A  Special_Electrical_Machines_by_S.P._Burman/screenshots/TorqLossEff1.png
A  Special_Electrical_Machines_by_S.P._Burman/screenshots/Torq_Speed1.png
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter01.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter02.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter03.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter04.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter05.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter06.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter07.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter08.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter09.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter10.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter11.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter12.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter13.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter14.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter15.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter16.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/Chapter17.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/README.txt
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_12_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_13_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_14_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_15_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_16_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_17_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_1_som.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/chapter_1_som_1.ipynb
A  Strength_Of_Materials_by_B_K_Sarkar/chapter_2_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_3_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_7_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_8_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/chapter_9_som.ipynb
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A  Strength_Of_Materials_by_B_K_Sarkar/screenshots/S.F.D_2.jpg
A  Strength_Of_Materials_by_B_K_Sarkar/screenshots/S.F.D_4.jpg
A  Strength_Of_Materials_by_B_K_Sarkar/screenshots/SFD.png
A  Strength_Of_Materials_by_B_K_Sarkar/screenshots/SFD3.png
M  The_C_Book/Chapter2.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/README.txt
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch10.ipynb -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch10.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch10_1.ipynb
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch2.ipynb -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch2.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch2_1.ipynb
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch3.ipynb -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch3.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch3_1.ipynb
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch4.ipynb -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch4.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch4_1.ipynb
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch5.ipynb -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch5.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch5_1.ipynb
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch6.ipynb -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch6.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch6_1.ipynb
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch7.ipynb -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch7.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch7_1.ipynb
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch8.ipynb -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch8.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch8_1.ipynb
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch9.ipynb -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch9.ipynb
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/ch9_1.ipynb
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/screenshots/same3_7.png -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/screenshots/same3_7.png
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/screenshots/same3_7_1.png
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/screenshots/same7.png -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/screenshots/same7.png
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/screenshots/same7_1.png
R  _Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/screenshots/shearAndBendingMoment7.png -> Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/screenshots/shearAndBendingMoment7.png
A  Vector_Mechanics_for_Engineers:_Stastics_And_Dynamics_by_F._P._Beer,_E._R._Johnston,_D._F._Mazurek,_P._J._Cornwell_And_E._R._Eisenberg/screenshots/shearAndBendingMoment7_1.png
A  Wireless_Communications_and_Networking_by_V._Garg/README.txt
A  Wireless_Communications_and_Networking_by_V._Garg/ch10_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch11_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch12_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch13_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch14_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch17_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch19_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch21_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch2_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch3_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch4_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch5_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch6_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch8_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/ch9_1.ipynb
A  Wireless_Communications_and_Networking_by_V._Garg/screenshots/EbbyNo_1.png
A  Wireless_Communications_and_Networking_by_V._Garg/screenshots/comparision_of_models_1.png
A  Wireless_Communications_and_Networking_by_V._Garg/screenshots/multiplexing_1.png
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/README.txt
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch10_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch11_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch12_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch1_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch2_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch3_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch4_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch5_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch6_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch7_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch8_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch9_1.ipynb
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/energy_stored3_1.png
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/magnetic_flux12_1.png
A  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/pitch_factor7_1.png
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_10_Solid_Solutions_and_Phase_Equilibrium_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_10_Solid_Solutions_and_Phase_Equilibrium_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_11_Dispertion_Strengthening_and_Eutectic_Phase_Diagrams_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_11_Dispertion_Strengthening_and_Eutectic_Phase_Diagrams_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_12_Dispersion_Strengthening__by_Phase_Transmission_and_Heat_Treatment_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_12_Dispersion_Strengthening__by_Phase_Transmission_and_Heat_Treatment_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_13_Heat_treatment_of_Steels_and_Cast_Iron_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_13_Heat_treatment_of_Steels_and_Cast_Iron_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_14_Nonferrous_Alloy_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_14_Nonferrous_Alloy_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_15_Ceramic_Materials_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_15_Ceramic_Materials_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_16_Polymers_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_16_Polymers_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_17_Composites_Teamwork_and_Synergy_in_Materials_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_17_Composites_Teamwork_and_Synergy_in_Materials_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_2_Atomic_Structure__2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_2_Atomic_Structure__3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_3_Atomic_and_Ionic_Arrangements_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_3_Atomic_and_Ionic_Arrangements_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_4_Imperfections_in_Atomic_and_Ionic_Arrangements_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_4_Imperfections_in_Atomic_and_Ionic_Arrangements_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_5_Atoms_and_Ion_Moments_in_Materials_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_5_Atoms_and_Ion_Moments_in_Materials_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_6_Mechanical_Properties_part_one_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_6_Mechanical_Properties_part_one_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_7_Mechanical_Properties_part_two_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_7_Mechanical_Properties_part_two_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_8_Strain_Hardening_and_Annealing__2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_8_Strain_Hardening_and_Annealing__3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_9_Principles_of_Solidification_2.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/Chapter_9_Principles_of_Solidification_3.ipynb
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/README.txt
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/screenshots/cha_10_2.png
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/screenshots/cha_10_3.png
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/screenshots/cha_11_2.png
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/screenshots/cha_11_3.png
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/screenshots/cha_4_2.png
A  _Essentials_of_Materials_Science_and_Engineering_by__D._R._Askeland_and_P._P._Phule/screenshots/cha_4_3.png
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter10.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter11.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter2.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter3.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter4.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter5.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter6.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter7.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter8.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/Chapter9.ipynb
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/screenshots/chapter10.png
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/screenshots/chapter11.png
A  _Introduction_to_Nuclear_Engineering_by_J._R._Lamarsh_and_A._J._Baratta/screenshots/chapter2.png
A  _Optical_Fiber_Communication_by_V._S._Bagad/README.txt
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/Chapter_10_SILICON_CONTROLLED_RECTIFIER.ipynb
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/Chapter_1_CRYSTAL_STRUCTURES.ipynb
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/Chapter_6_ELECTRICAL_BREAKDOWN_IN_PN_JUNCTIONS.ipynb
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_2_ENERGY_BAND_THEORY_OF_SOLIDS.ipynb
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_3_CARRIER_TRANSPORT_IN_SEMICONDUCTOR.ipynb
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_4__EXCESS_CARRIER_IN_SEMICONDUCTOR.ipynb
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_5_PN_JUNCTION_DIODE.ipynb
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_7_BIPOLAR_JUNCTION_TRANSISTORB.ipynb
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_8_THE_FIELD_EFFECT_TRANSISTOR.ipynb
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/screenshots/Screen_Shot_2015-11-05_at_11.31.11_pm.png
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/screenshots/Screen_Shot_2015-11-05_at_11.32.51_pm.png
A  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/screenshots/Screen_Shot_2015-11-05_at_11.33.45_pm.png
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter10.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter10_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter11.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter11_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter12.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter12_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter1_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter2.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter2_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter3.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter3_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter4.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter4_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter5.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter5_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter6.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter6_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter7.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter7_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter8.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter8_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter9.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/Chapter9_1.ipynb
A  _Theory_Of_Machines_by__B._K._Sarkar/README.txt
A  _Theory_Of_Machines_by__B._K._Sarkar/screenshots/chapter1.png
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diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_01_1.ipynb b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_01_1.ipynb
new file mode 100755
index 00000000..121ebd92
--- /dev/null
+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_01_1.ipynb
@@ -0,0 +1,61 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:c3629d79b20d53403694041229a5d247c5124b08a5efee82e15fa82e9980a3f5"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter - 1 : Units, Dimensions and Standards"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example - 1.1 : Page No- 14"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from __future__ import division\n",
+      "# Given data\n",
+      "V_desh= 100 # in V\n",
+      "I_desh= 10 # in amp\n",
+      "R_desh= V_desh/I_desh # in \u03a9\n",
+      "print \"New unit of resistance = %0.f \u03a9\" %R_desh\n",
+      "C_desh= I_desh/V_desh # in F\n",
+      "print \"New unit of capacitance = %0.1f Farad\" %C_desh\n",
+      "L_desh= V_desh/I_desh # in L\n",
+      "print \"New unit of inductance = %0.f Henrys\" %L_desh"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "New unit of resistance = 10 \u03a9\n",
+        "New unit of capacitance = 0.1 Farad\n",
+        "New unit of inductance = 10 Henrys\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_02_1.ipynb b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_02_1.ipynb
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+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_02_1.ipynb
@@ -0,0 +1,1047 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:be43ce8cfcf757315834ebcb5892c350b5dbd49ea038d4267cd2840c005e466a"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter - 02 : Measurement Errors"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.1 - Page No : 24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Am= 10.25 # in ohm\n",
+      "A= 10.22 # in ohm\n",
+      "del_A= Am-A # in ohm\n",
+      "print \"Absolute error = %0.2f ohm\" %del_A"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Absolute error = 0.03 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.2 - Page No : 24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Am= 6.7 # in A\n",
+      "A= 6.54 # in A\n",
+      "del_A= Am-A # in A\n",
+      "print \"Absolute error = %0.2f A\" %del_A\n",
+      "print \"Correction = %0.2f A\" %(-del_A)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Absolute error = 0.16 A\n",
+        "Correction = -0.16 A\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.3 - Page No : 24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Am= 25.34 # in watt\n",
+      "del_A= -0.11 # in watt\n",
+      "A= Am-del_A \n",
+      "print \"True value = %0.2f watt\" %A"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "True value = 25.45 watt\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.4 - Page No : 24\n",
+      " "
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "#Given data\n",
+      "Am= 205.3*10**-6 # in F\n",
+      "A=  201.4*10**-6 # in F\n",
+      "epsilon_o= Am-A \n",
+      "epsilon_r= epsilon_o/A*100 # in %\n",
+      "print \"Percentage relative error = %0.2f %%\" %epsilon_r"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Percentage relative error = 1.94 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.5 - Page No : 24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from __future__ import division \n",
+      "#Given data\n",
+      "PerError= 5 # in %\n",
+      "epsilon_r= PerError/100 \n",
+      "Am=20 # in H\n",
+      "del_A= Am*epsilon_r \n",
+      "# A= Am+del_A and A= Am-del_A\n",
+      "print \"Limiting value of inductance =\",int(Am),\"\u00b1\",int(del_A),\"in Henry\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Limiting value of inductance = 20 \u00b1 1 in Henry\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.6 - Page No : 24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "V=600 # in volt\n",
+      "A= 400 #in volt\n",
+      "epsilon_r= 2.5/100 \n",
+      "del_V= epsilon_r*V \n",
+      "PerLimitError= del_V/A*100 # in %\n",
+      "print \"The percentage limiting error at 400 volt = \u00b1 %0.2f %%\" %PerLimitError  "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The percentage limiting error at 400 volt = \u00b1 3.75 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.7 - Page No : 25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Am= 500 # in watt\n",
+      "epsilon_r= 1.5/100 # in neg and pos\n",
+      "# for positive value of epsilon_r\n",
+      "A1= Am*(1+epsilon_r) # in watt\n",
+      "# for positive value of epsilon_r\n",
+      "A2= Am*(1-epsilon_r) # in watt\n",
+      "print \"Range of reading of wattmeter is \",round(A2,1),\" watt to \",round(A1,1),\" watt\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Range of reading of wattmeter is  492.5  watt to  507.5  watt\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.8 - Page No : 25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "epsilon_r= 1.5/100 # in neg and pos\n",
+      "A= 10 # in amp\n",
+      "del_A= epsilon_r*A #in amp\n",
+      "# The magnitude of current being measured is 2.5 A. The relative error at this current is \n",
+      "A= 2.5 # in amp\n",
+      "epsilon_r= del_A/A \n",
+      "# Hence, the current under measurement is between the limits of\n",
+      "Am= 2.5 #in amp\n",
+      "# for positive value of epsilon_r\n",
+      "A1= Am*(1+epsilon_r) # in amp\n",
+      "# for positive value of epsilon_r\n",
+      "A2= Am*(1-epsilon_r) # in amp\n",
+      "print \"Limiting values of current under measurement are \",round(A2,2),\" amp to \",round(A1,2),\" amp\"\n",
+      "LimitingError= del_A/A*100 # in %\n",
+      "print \"Limiting Error = %0.f %%\" %LimitingError"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Limiting values of current under measurement are  2.35  amp to  2.65  amp\n",
+        "Limiting Error = 6 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 18
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.9 - Page No : 25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "epsilon_r= 1/100 \n",
+      "P=1000 # in watt\n",
+      "del_P= epsilon_r*P # in watt\n",
+      "# The magnitude of the power being measured is 100 watts.\n",
+      "PerLimitError= del_P/100*100 # in %\n",
+      "print \"The percentage limiting error at 1000 =\",int(PerLimitError),\"%\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The percentage limiting error at 1000 = 10 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 22
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.10 - Page No : 25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "# For positive value of error\n",
+      "R1= 100+100*2/100 #in ohm\n",
+      "R2= 200+200*2.5/100 # in ohm\n",
+      "AddR1R2_pos= R1+R2 # in ohm\n",
+      "# For negative value of error\n",
+      "R1= 100-100*2/100 #in ohm\n",
+      "R2= 200-200*2.5/100 # in ohm\n",
+      "AddR1R2_neg= R1+R2 # in ohm\n",
+      "print \"Values of R1+R2 =\",int(AddR1R2_neg),\"ohm to\",int(AddR1R2_pos),\"ohm\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Values of R1+R2 = 293 ohm to 307 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 25
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.12 - Page No : 26"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "AV= 110.2 # true value of voltage in volt\n",
+      "AI= 5.3 # true value of current in amp\n",
+      "v= 0.2 # uncertainties in voltage in volt\n",
+      "i= 0.6 # uncertainties in current in amp\n",
+      "PLV= v/AV*100 # percentage limiting error to voltage drop\n",
+      "PLC= i/AI*100 # percentage limiting error to current\n",
+      "P= AV*AI # in watt\n",
+      "print \"The power dissipated in the resistor = %0.2f watt\" %P\n",
+      "LE_P= (PLV+PLC) # limiting error in the power dissipation in pos and neg\n",
+      "print \"The limiting error in the power dissipation = \u00b1 %0.2f\" %LE_P\n",
+      "print \"Power dissipation =\",round(P-P*LE_P/100,2),\"W to \",round(P+P*LE_P/100,2),\"W\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The power dissipated in the resistor = 584.06 watt\n",
+        "The limiting error in the power dissipation = \u00b1 11.50\n",
+        "Power dissipation = 516.88 W to  651.24 W\n"
+       ]
+      }
+     ],
+     "prompt_number": 31
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.13 - Page No : 26"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "AR= 100 # true value of resistance in ohm\n",
+      "AI= 2 # true value of current in amp\n",
+      "R= 0.2 # uncertainties in resistance in ohm\n",
+      "I= 0.01 # uncertainties in current in amp\n",
+      "PLR= R/AR*100 # percentage limiting error to resistance\n",
+      "PLC= I/AI*100 # percentage limiting error to current\n",
+      "P=AI**2*AR # in watt\n",
+      "LE_P= 2*PLC+PLR # limiting error in the power dissipation \n",
+      "print \"Power dissipation =\",round(P-P*LE_P/100,1),\"W to\",round(P+P*LE_P/100,1),\"W\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Power dissipation = 395.2 W to 404.8 W\n"
+       ]
+      }
+     ],
+     "prompt_number": 33
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.14 - Page No : 27"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "FullScaleReading= 200 # in V\n",
+      "N= 100 # Number of division of scale\n",
+      "SD= FullScaleReading/N # 1 scale division\n",
+      "Resolution = 1/5*SD # in v\n",
+      "print \"The value of resolution = %0.1f volts\" %Resolution"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of resolution = 0.4 volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 36
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.15 - Page No : 34"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "# u= 150+2.4 miu F and 150-2.4 miu F\n",
+      "# v= 120+1.5 miu F and 120-1.5 miu F\n",
+      "y=150+120 \n",
+      "del_y = 2.4+1.5 # Pos and neg\n",
+      "print \"Limiting error with pos and neg = \u00b1 %0.1f miu F\" %del_y\n",
+      "RelLimError= del_y/y*100 # in %\n",
+      "print \"Relative limiting error with pos and neg = %0.2f %%\" %RelLimError  "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Limiting error with pos and neg = \u00b1 3.9 miu F\n",
+        "Relative limiting error with pos and neg = 1.44 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 38
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.16 - Page No : 35"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R1= 1 #in kohm\n",
+      "R1=R1*10**3 #in ohm\n",
+      "del_R1ByR1= 1 \n",
+      "del_R2ByR2= 1 \n",
+      "R2= 500 #in kohm\n",
+      "R= R1*R2/(R1+R2) #in ohm\n",
+      "# Let R= X/Y\n",
+      "X= R1*R2 \n",
+      "Y=R1+R2 \n",
+      "ErrorX= del_R1ByR1+del_R2ByR2 # with pos and neg\n",
+      "# ErrorY= del_R1/Y + del_R2/Y = R1/Y*del_R1ByR1 + R2/Y*del_R2ByR2\n",
+      "ErrorY= R1/Y*del_R1ByR1 + R2/Y*del_R2ByR2 # with pos and neg\n",
+      "PerError= ErrorX+ErrorY # in % with pos and neg\n",
+      "print \"Percentage error (maximum posible) in equivalent parallel resistance = \u00b1 %0.f %%\" %PerError\n",
+      "Error= 333.33*PerError/100 \n",
+      "Error=round(Error) \n",
+      "print \"Error (maximum possible) in equivalent parallel resistance = %0.f ohm\" %Error"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Percentage error (maximum posible) in equivalent parallel resistance = \u00b1 3 %\n",
+        "Error (maximum possible) in equivalent parallel resistance = 10 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 41
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.17 - Page No : 35"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R1= 200 #in ohm\n",
+      "R2= 100 #in ohm\n",
+      "R3= 50 #in ohm\n",
+      "del_R1ByR1= 5 \n",
+      "del_R2ByR2= 5 \n",
+      "del_R3ByR3= 5 \n",
+      "# Part (i) when the resistance are connected in series\n",
+      "Rse= R1+R2+R3 # in ohm\n",
+      "print \"Equivalent resistance when connected in seried = %0.f ohm\" %Rse \n",
+      "LimError= R1/Rse*del_R1ByR1 + R2/Rse*del_R2ByR2 + R3/Rse*del_R3ByR3 \n",
+      "print \"Relative limiting error of series resistances = \u00b1 %0.f %%\" %LimError\n",
+      "LimError= Rse*LimError/100 #relative limiting error of series equivalent resistance in ohm\n",
+      "print \"Relative limiting error of series equivalent resistance = \u00b1 %0.1f ohm\" %LimError\n",
+      "\n",
+      "# Part(ii) when the resistance are connected in parallel\n",
+      "Rp= R1*R2*R3/(R1*R2+R2*R3+R3*R1) \n",
+      "print \"Equivalent resistance when connected in parallel = %0.2f ohm\" %Rp\n",
+      "# Let Rp= X/Y\n",
+      "X= R1*R2*R3 \n",
+      "Y=R1*R2+R2*R3+R3*R1 \n",
+      "y1= R1*R2 \n",
+      "y2= R2*R3 \n",
+      "y3= R3*R1 \n",
+      "ErrorX= del_R1ByR1 + del_R2ByR2 + del_R3ByR3 \n",
+      "Errory1= del_R1ByR1 + del_R2ByR2  \n",
+      "Errory2= del_R2ByR2 + del_R3ByR3  \n",
+      "Errory3= del_R3ByR3 + del_R1ByR1  \n",
+      "ErrorY= ( y1/Y*Errory1 + y2/Y*Errory2 + y3/Y*Errory3)\n",
+      "LimError= ErrorX + ErrorY \n",
+      "print \"Percentage error (maximum possible) in equivalent parallel resistance = \u00b1 %0.f %%\" %LimError\n",
+      "LimError= Rp*LimError/100 \n",
+      "print \"Error (maximum possible) in equivalent parallel resistance = %0.4f ohm\" %LimError"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Equivalent resistance when connected in seried = 350 ohm\n",
+        "Relative limiting error of series resistances = \u00b1 5 %\n",
+        "Relative limiting error of series equivalent resistance = \u00b1 17.5 ohm\n",
+        "Equivalent resistance when connected in parallel = 28.57 ohm\n",
+        "Percentage error (maximum possible) in equivalent parallel resistance = \u00b1 25 %\n",
+        "Error (maximum possible) in equivalent parallel resistance = 7.1429 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 45
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.18 - Page No : 36"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "epsilon_r= 1.5/100 \n",
+      "V=100 # in volt\n",
+      "I=150 # in mA\n",
+      "del_V= epsilon_r*V # in volt\n",
+      "Vm= 70 # magnitude of voltage being measured in volt\n",
+      "PerLimError_V= del_V/Vm*100 # in %\n",
+      "del_I= epsilon_r*I # in mA\n",
+      "Im= 80 #in mA\n",
+      "PerLimError_C= del_I/Im*100 # in %\n",
+      "P= Vm*Im/1000 # in watt\n",
+      "RelLImError_P= (PerLimError_V+PerLimError_C) # in %\n",
+      "print \"Relative limiting error in power measurement = %0.3f %%\" %RelLImError_P "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Relative limiting error in power measurement = 4.955 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 46
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.19 - Page No : 37"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "E= 200 # in V\n",
+      "del_E_by_E= 1 \n",
+      "R=1000 # in ohm\n",
+      "del_R_by_R= 5 \n",
+      "P=E**2/R # in watt\n",
+      "print \"Normal power consumed = %0.f watt\" %P\n",
+      "LimError= 2*del_E_by_E+del_R_by_R # in %\n",
+      "print \"Relative limiting error in measurement of power = \u00b1 %0.f %%\" %LimError\n",
+      "LimError= LimError*P/100 #in watt\n",
+      "print \"Limiting error of power = \u00b1 %0.1f watt\" %LimError"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Normal power consumed = 40 watt\n",
+        "Relative limiting error in measurement of power = \u00b1 7 %\n",
+        "Limiting error of power = \u00b1 2.8 watt\n"
+       ]
+      }
+     ],
+     "prompt_number": 47
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.20 - Page No : 37"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R1= 500 # in ohm\n",
+      "R2= 615 # in ohm\n",
+      "R3= 100 # in ohm\n",
+      "delR1ByR1= 1 \n",
+      "delR2ByR2= 1 \n",
+      "delR3ByR3= 0.5 \n",
+      "# Part(i)\n",
+      "R4=R1*R2/R3 # in ohm\n",
+      "print \"Unknown resistance = %0.f ohm\" %R4\n",
+      "delR4ByR4= delR1ByR1+delR2ByR2+delR3ByR3 \n",
+      "print \"Relative limiting error of unknown resistance = \u00b1 %0.1f %%\" %delR4ByR4\n",
+      "LimError= R4*delR4ByR4/100 \n",
+      "print \"Limiting error = %0.3f ohms\" %LimError "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Unknown resistance = 3075 ohm\n",
+        "Relative limiting error of unknown resistance = \u00b1 2.5 %\n",
+        "Limiting error = 76.875 ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 48
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.21 - Page No : 37"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "del_PbyP=0.5 \n",
+      "del_CbyC=1 \n",
+      "del_VbyV=1 \n",
+      "del_PFbyPF=del_PbyP + del_CbyC + del_VbyV \n",
+      "print \"Relative limiting error = \u00b1 %0.1f %%\" %del_PFbyPF"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Relative limiting error = \u00b1 2.5 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 49
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.22 - Page No : 37"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "C=1 # in miu F\n",
+      "C=C*10**-6 # in F\n",
+      "P=1000 # in ohm\n",
+      "Q=2000 # in ohm\n",
+      "r=200 # in ohm\n",
+      "S=2000 # in ohm\n",
+      "del_C_by_C= 1 \n",
+      "del_P_by_P= 0.4 \n",
+      "del_Q_by_Q= 1 \n",
+      "del_r_by_r= 0.5 \n",
+      "del_S_by_S= 0.5 \n",
+      "Lx= C*P/S*(r*(Q+S)+Q*S) # in Henry\n",
+      "print \"Unknown inductance = %0.1f Henry\" %Lx\n",
+      "# Let\n",
+      "u=Q+S # in ohm\n",
+      "Error_u= Q/u*del_Q_by_Q + S/u*del_S_by_S # in %\n",
+      "# Let v= r*(Q+S) = r*u\n",
+      "v= r*(Q+S) \n",
+      "Error_v= del_r_by_r + Error_u # in %\n",
+      "# Let \n",
+      "x=Q*S \n",
+      "Error_x= del_Q_by_Q + del_S_by_S # in %\n",
+      "# Let y= r*(Q+S)+Q*S = v+x\n",
+      "y=v+x \n",
+      "Error_y= v/y*Error_v + x/y*Error_x # in %\n",
+      "del_Lx_by_Lx= del_C_by_C + del_P_by_P + del_S_by_S + Error_y # in %\n",
+      "print \"Percentage error in inductance = %0.3f %%\" %del_Lx_by_Lx"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Unknown inductance = 2.4 Henry\n",
+        "Percentage error in inductance = 3.358 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 51
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.23 - Page No : 38"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from numpy import pi \n",
+      "#Given data\n",
+      "R=100 # in ohm\n",
+      "del_R_by_R= 5 \n",
+      "L=2 # in Henry\n",
+      "del_L_by_L= 10 \n",
+      "omega= 2*pi*50 \n",
+      "# Let\n",
+      "u=R**2 \n",
+      "Error_u= 2*del_R_by_R \n",
+      "# Let\n",
+      "v= omega**2*L**2 \n",
+      "Error_v= 2*del_L_by_L \n",
+      "# Let \n",
+      "x= u+v \n",
+      "Error_x= u/x*Error_u + v/x*Error_v # in %\n",
+      "# Now\n",
+      "Z= x**(1/2) \n",
+      "Error_Z= 1/2*Error_x \n",
+      "print \"The uncertainly in the measurement of Z = %0.3f %%\" %Error_Z"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The uncertainly in the measurement of Z = 9.876 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 53
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.24 - Page No : 40"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from math import sqrt\n",
+      "#Given data\n",
+      "x1= 49.7 \n",
+      "x2= 50.1 \n",
+      "x3= 50.2 \n",
+      "x4= 49.6 \n",
+      "x5= 49.7 \n",
+      "n=5 \n",
+      "x_bar= (x1+x2+x3+x4+x5)/5 \n",
+      "d1= x1-x_bar \n",
+      "d2= x2-x_bar \n",
+      "d3= x3-x_bar \n",
+      "d4= x4-x_bar \n",
+      "d5= x5-x_bar \n",
+      "s= sqrt((d1**2+d2**2+d3**2+d4**2+d5**2)/(n-1)) \n",
+      "print \"The value of standard deviation = %0.2f\" %s"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of standard deviation = 0.27\n"
+       ]
+      }
+     ],
+     "prompt_number": 55
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.25 - Page No : 44"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "x1= 41.7 \n",
+      "x2= 42 \n",
+      "x3= 41.8 \n",
+      "x4= 42 \n",
+      "x5= 42.1 \n",
+      "x6= 41.9 \n",
+      "x7= 42.5 \n",
+      "x8= 42 \n",
+      "x9= 41.9 \n",
+      "x10=41.8 \n",
+      "n=10 \n",
+      "# (i)\n",
+      "x_bar= (x1+x2+x3+x4+x5+x6+x7+x8+x9+x10)/10 \n",
+      "print \"Arithmetic mean = %0.2f\" %x_bar\n",
+      "d1= x1-x_bar \n",
+      "d2= x2-x_bar \n",
+      "d3= x3-x_bar \n",
+      "d4= x4-x_bar \n",
+      "d5= x5-x_bar \n",
+      "d6= x6-x_bar \n",
+      "d7= x7-x_bar \n",
+      "d8= x8-x_bar \n",
+      "d9= x9-x_bar \n",
+      "d10= x10-x_bar \n",
+      "# (ii)\n",
+      "sigma= sqrt((d1**2+d2**2+d3**2+d4**2+d5**2+d6**2+d7**2+d8**2+d9**2+d10**2)/(n-1)) \n",
+      "print \"The value of standard deviation = %0.3f\" %sigma \n",
+      "\n",
+      "# (iii)\n",
+      "r= 0.6745*sigma \n",
+      "print \"Probable error of one reading = %0.3f\" %r"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Arithmetic mean = 41.97\n",
+        "The value of standard deviation = 0.221\n",
+        "Probable error of one reading = 0.149\n"
+       ]
+      }
+     ],
+     "prompt_number": 56
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 2.26 - Page No : 45"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "x1= 1.570 \n",
+      "x2= 1.597 \n",
+      "x3= 1.591 \n",
+      "x4= 1.562 \n",
+      "x5= 1.577 \n",
+      "x6= 1.580 \n",
+      "x7= 1.564 \n",
+      "x8= 1.586 \n",
+      "x9= 1.550 \n",
+      "x10=1.575 \n",
+      "n=10 \n",
+      "# (i)\n",
+      "x_bar= (x1+x2+x3+x4+x5+x6+x7+x8+x9+x10)/10 \n",
+      "print \"Arithmetic mean        = %0.4f gramme\" %x_bar\n",
+      "d1= x1-x_bar \n",
+      "d2= x2-x_bar \n",
+      "d3= x3-x_bar \n",
+      "d4= x4-x_bar \n",
+      "d5= x5-x_bar \n",
+      "d6= x6-x_bar \n",
+      "d7= x7-x_bar \n",
+      "d8= x8-x_bar \n",
+      "d9= x9-x_bar \n",
+      "d10= x10-x_bar \n",
+      "\n",
+      "# (ii)\n",
+      "D= (abs(d1)+abs(d2)+abs(d3)+abs(d4)+abs(d5)+abs(d6)+abs(d7)+abs(d8)+abs(d9)+abs(d10))/n # in gramme\n",
+      "print \"Average deviation      = %0.3f gramme\" %D\n",
+      "\n",
+      "# (iii)\n",
+      "sigma= sqrt((d1**2+d2**2+d3**2+d4**2+d5**2+d6**2+d7**2+d8**2+d9**2+d10**2)/(n-1)) # in gramme\n",
+      "print \"Standard deviation     = %0.5f gramme\" %sigma \n",
+      "\n",
+      "# (iv)\n",
+      "V= sigma**2 # variance in gramme**2\n",
+      "print \"Variance               = %0.3e gramme**2\" %V \n",
+      "\n",
+      "# (v)\n",
+      "r= 0.6745*sigma # in gramme\n",
+      "print \"Probable error         = %0.4f gramme\" %r\n",
+      "\n",
+      "# (vi)\n",
+      "rm= r/sqrt(n-1) # in gramme\n",
+      "print \"Probable error of mean = %0.4f gramme\" %rm"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Arithmetic mean        = 1.5752 gramme\n",
+        "Average deviation      = 0.011 gramme\n",
+        "Standard deviation     = 0.01426 gramme\n",
+        "Variance               = 2.033e-04 gramme**2\n",
+        "Probable error         = 0.0096 gramme\n",
+        "Probable error of mean = 0.0032 gramme\n"
+       ]
+      }
+     ],
+     "prompt_number": 63
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_03_1.ipynb b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_03_1.ipynb
new file mode 100755
index 00000000..077b1bb4
--- /dev/null
+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_03_1.ipynb
@@ -0,0 +1,858 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:4e527403e3e23cec992884b304469d3eb94c6edd5b7caf76ef7e787ddafbe409"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter - 3 : PMMC Instruments"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.1 - Page No : 57"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "N= 100 \n",
+      "A=4*3 # in cm**2\n",
+      "A=A*10**-4 # in m**2\n",
+      "i=20 # in mA\n",
+      "i=i*10**-3 # in A\n",
+      "B=0.05 # in T\n",
+      "T=N*i*B*A #in Nm\n",
+      "print \"Torque developed by the coil = %0.1e Nm\" %T"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Torque developed by the coil = 1.2e-04 Nm\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.2 - Page No : 57"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "N= 125 \n",
+      "A=4*2.5 # in cm**2\n",
+      "A=A*10**-4 # in m**2\n",
+      "i=25 # in mA\n",
+      "i=i*10**-3 # in A\n",
+      "B=0.06 # in T\n",
+      "Td=N*i*B*A #in Nm\n",
+      "Tc_BY_theta= 25*10**-7 # in Nm/\u00b0\n",
+      "# Formula Tc=Td\n",
+      "theta= Td/Tc_BY_theta # in \u00b0\n",
+      "print \"Deflection = %0.f degree\" %theta"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Deflection = 75 degree\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.3 - Page No :57"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from __future__ import division\n",
+      "#Given data\n",
+      "N= 100 \n",
+      "B=6*10**-2 # in Wb/m**2\n",
+      "A=3*4 # in cm**2\n",
+      "A=A*10**-4 # in m**2\n",
+      "V=300 # in volt\n",
+      "R=12000 # in ohm\n",
+      "i= V/R # in amp\n",
+      "Td=N*i*B*A #in Nm\n",
+      "Tc_BY_theta= 25*10**-7 # in Nm/\u00b0\n",
+      "# Formula Tc=Td\n",
+      "theta= Td/Tc_BY_theta # in \u00b0\n",
+      "print \"Deflection = %0.f degree\" %theta"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Deflection = 72 degree\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.4 - Page No : 62"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from numpy import pi\n",
+      "#Given data\n",
+      "d= 42 # in mm\n",
+      "d=d*10**-3 # in meter\n",
+      "r= 0.6 # in meter\n",
+      "# Formula d= 2*theta*r\n",
+      "theta= d/(2*r) # radian\n",
+      "theta= 180*theta/pi # in \u00b0\n",
+      "print \"Angle through which coil turn = %0.f\u00b0\" %theta "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Angle through which coil turn = 2\u00b0\n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.5 - Page No : 62"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "B=1.8*10**-3 # in Wb/m**2\n",
+      "K= 1.4*10**-7 # in Nm/radian\n",
+      "theta= 90 # in \u00b0\n",
+      "theta=theta*pi/180 \n",
+      "Tc= K*theta # in N-m\n",
+      "i=5 # in mA\n",
+      "i=i*10**-3 # in amp\n",
+      "A=1.5*1.2 # in cm**2\n",
+      "A=A*10**-4 # in m**2\n",
+      "# Formula Tc= Td= B*i*A*N \n",
+      "N= Tc/(B*i*A) \n",
+      "N=round(N) \n",
+      "print \"Number of turns = %0.f\" %N "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Number of turns = 136\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.6 - Page No : 63"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "B=0.1 # in T\n",
+      "C= 100*10**-7 # in Nm/radian\n",
+      "theta= 120 # in \u00b0\n",
+      "theta=theta*pi/180 \n",
+      "Tc= C*theta # in N-m\n",
+      "N=200 # number of turns\n",
+      "A=2.5*2 # in cm**2\n",
+      "A=A*10**-4 # in m**2\n",
+      "# Formula Tc= Td= B*i*A*N \n",
+      "i= Tc/(B*A*N) # in amp\n",
+      "print \"Current in the coil = %0.4f mA\" %(i*10**3)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current in the coil = 2.0944 mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.7 - Page No : 63"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "d=150 # in mm\n",
+      "i=2.5 # in micro amp\n",
+      "R=200 # in ohm\n",
+      "V= R*i # in micro volt\n",
+      "r=2.5 # in meter\n",
+      "# Part(i)\n",
+      "Si= d/i # in mm/micro amp\n",
+      "print \"Current sensitivity = %0.f mm/\u00b5A\" %Si\n",
+      "\n",
+      "# Part(ii)\n",
+      "Sv= d/V # in mm/micro volt\n",
+      "print \"Voltage sensitivity = %0.1f mm/\u00b5V\" %Sv\n",
+      "\n",
+      "# Part(iii)\n",
+      "So= 1/(1/60*10**-6) # in ohm/mm\n",
+      "So=So*10**-6 # in Mohm\n",
+      "print \"Megohm sensitivity  = %0.f Mohm/mm\" %So\n",
+      "\n",
+      "# Part(iv)\n",
+      "i=5 # in micro amp\n",
+      "d=60*i # in mm\n",
+      "d=d*10**-3 # in meter\n",
+      "theta=d/(2*r) #in radian \n",
+      "print \"The value of deflection = %0.2f radians\" %theta"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current sensitivity = 60 mm/\u00b5A\n",
+        "Voltage sensitivity = 0.3 mm/\u00b5V\n",
+        "Megohm sensitivity  = 60 Mohm/mm\n",
+        "The value of deflection = 0.06 radians\n"
+       ]
+      }
+     ],
+     "prompt_number": 19
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.8 - Page No : 65"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Im= 50*10**-6 # in amp\n",
+      "Rm= 1000 # in ohm\n",
+      "I=1 # in amp\n",
+      "Rs= Rm/(I/Im-1) # in ohm\n",
+      "print \"Resistance of ammeter shunt required = %0.7f ohm\" %Rs"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance of ammeter shunt required = 0.0500025 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 21
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.9 - Page No : 65"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from fractions import Fraction\n",
+      "#Given data\n",
+      "Rm= 1.0 # in ohm\n",
+      "Rse= 4999 # in ohm\n",
+      "V=250 # full scale deflection voltage in volt\n",
+      "# Formula V= Im*(Rm+Rse)\n",
+      "Im= V/(Rm+Rse) # in amp\n",
+      "\n",
+      "# Part(a)\n",
+      "Rs= 1/4999 # in ohm\n",
+      "Is= Im*Rm/Rs #in amp\n",
+      "I= Im+Is # in amp\n",
+      "print \"Current range = %0.f A\" %I\n",
+      "\n",
+      "# Part(b)\n",
+      "I=50 # in amp\n",
+      "N=I/Im \n",
+      "Rs= Rm/(N-1) # in ohm\n",
+      "print \"Required shunt resistance =\",Fraction(Rs).limit_denominator(1000),\"ohm\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current range = 250 A\n",
+        "Required shunt resistance = 1/999 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 27
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.10 - Page No : 66"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Im= 50 # in micro amp\n",
+      "Im=Im*10**-6 # in amp\n",
+      "Rm= 49 # in ohm\n",
+      "Rs= 1 # in ohm\n",
+      "Is= Im*Rm/Rs #in amp\n",
+      "I= Im+Is # in amp\n",
+      "# (i)\n",
+      "I1= I # in amp\n",
+      "I2= I*0.5 # in amp\n",
+      "I3= I*0.1 # in amp\n",
+      "print \"Main circuit current at FSD = %0.1f mA\" %(I1*10**3)\n",
+      "print \"Main circuit current at 0.5 FSD = %0.2f mA\" %(I2*10**3)\n",
+      "print \"Main circuit current at 0.1 FSD = %0.2f mA\" %(I3*10**3)\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Main circuit current at FSD = 2.5 mA\n",
+        "Main circuit current at 0.5 FSD = 1.25 mA\n",
+        "Main circuit current at 0.1 FSD = 0.25 mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 29
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.11 - Page No : 67"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Rm= 40 # in ohm\n",
+      "Im= 1 # in mA\n",
+      "# For switch at position 1 (lowest range of 10 mA)\n",
+      "I=10 # in mA\n",
+      "N1= I/Im \n",
+      "R1= Rm/(N1-1) # in ohm\n",
+      "# For switch at position 2 (range of 20 mA)\n",
+      "I=20 # in mA\n",
+      "N2= I/Im \n",
+      "R2= (R1+Rm)/N2 # in ohm\n",
+      "# For switch at position 3 (range of 30 mA)\n",
+      "I=30 # in mA\n",
+      "N3= I/Im \n",
+      "R3= (R1+Rm)/N3 # in ohm\n",
+      "# For switch at position 4 (range of 40 mA)\n",
+      "I=40 # in mA\n",
+      "N4= I/Im \n",
+      "R4= (R1+Rm)/N4 # in ohm\n",
+      "# For switch at position 5 (range of 50 mA)\n",
+      "I=50 # in mA\n",
+      "N5= I/Im \n",
+      "R5= (R1+Rm)/N5 # in ohm\n",
+      "r1= R1-R2 # in ohm\n",
+      "r2= R2-R3 # in ohm\n",
+      "r3= R3-R4 # in ohm\n",
+      "r4= R4-R5 # in ohm\n",
+      "r5= R5 # in ohm\n",
+      "print \"Resistance of the various sections of the Ayrton's shunt :\"\n",
+      "print \"r1 = %0.3f ohm\" %r1\n",
+      "print \"r2 = %0.4f ohm\" %r2\n",
+      "print \"r3 = %0.4f ohm\" %r3\n",
+      "print \"r4 = %0.3f ohm\" %r4\n",
+      "print \"r5 = %0.3f ohm\" %r5\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance of the various sections of the Ayrton's shunt :\n",
+        "r1 = 2.222 ohm\n",
+        "r2 = 0.7407 ohm\n",
+        "r3 = 0.3704 ohm\n",
+        "r4 = 0.222 ohm\n",
+        "r5 = 0.889 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 34
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.12 - Page No : 68"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Rm= 1000 # in ohm\n",
+      "Im= 1 # in mA\n",
+      "Im=Im*10**-3 # in amp\n",
+      "r3=0.05 # in ohm\n",
+      "r2=0.45 # in ohm\n",
+      "r1=4.5 # in ohm\n",
+      "# For switch at contact 1\n",
+      "Rm1= Rm # in ohm\n",
+      "Rs1= r1+r2+r3 # in ohm\n",
+      "I1= Im*(Rm1/Rs1+1) # in A\n",
+      "I1=I1*10**3 # in mA\n",
+      "I1=round((I1/10))*10 \n",
+      "\n",
+      "print \"Ammeter range at contact 1 = %0.f mA\" %I1\n",
+      "# For switch at contact 2\n",
+      "Rm2= Rm+r1 # in ohm\n",
+      "Rs2= r2+r3 # in ohm\n",
+      "I2= Im*(Rm2/Rs2+1) # in A\n",
+      "I2=round(I2) \n",
+      "print \"Ammeter range at contact 2 = %0.f A\" %I2\n",
+      "\n",
+      "# For switch at contact 3\n",
+      "Rm3= Rm+r1+r2 # in ohm\n",
+      "Rs3= r3 # in ohm\n",
+      "I3= Im*(Rm3/Rs3+1) # in A\n",
+      "I3=round(I3) \n",
+      "print \"Ammeter range at contact 3 = %0.f A\" %I3"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Ammeter range at contact 1 = 200 mA\n",
+        "Ammeter range at contact 2 = 2 A\n",
+        "Ammeter range at contact 3 = 20 A\n"
+       ]
+      }
+     ],
+     "prompt_number": 35
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.13 - Page No : 70"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from fractions import Fraction \n",
+      "#Given data\n",
+      "Rm= 10 # in ohm\n",
+      "Im= 50 # in mA\n",
+      "Im=Im*10**-3 # in amp\n",
+      "V=750 # in volt\n",
+      "R= V/Im-Rm # in ohm\n",
+      "print \"External resistance = %0.f ohm\" %R\n",
+      "# Part(ii)\n",
+      "I=100 # in A\n",
+      "N=I/Im \n",
+      "Rs= Rm/(N-1) # in ohm\n",
+      "print \"Shunt resistance required =\",Fraction(Rs).limit_denominator(10000),\"ohm\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "External resistance = 14990 ohm\n",
+        "Shunt resistance required = 10/1999 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 39
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.14  - Page No : 70"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Tc= 120*10**-6 # in N-m\n",
+      "B= 0.5 # in wb/m**2\n",
+      "N=100 \n",
+      "A= 4*3 # in cm**2\n",
+      "A=A*10**-4# in m**2\n",
+      "Rm=0 \n",
+      "V= 100*1 \n",
+      "# Formula Tc= Td = B*I*N*A\n",
+      "I= Tc/(B*N*A) # in amp\n",
+      "R= V/I-Rm # in ohm\n",
+      "print \"External required resistance = %0.f ohm\" %R"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "External required resistance = 50000 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 40
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.15 - Page No : 71"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Im= 0.2*10**-3 # in amp\n",
+      "Rm= 10 # in ohm\n",
+      "V=100 # in volt\n",
+      "R= V/Im-Rm # in ohm\n",
+      "print \"External required resistance = %0.2f kohm\" %(R*10**-3)\n",
+      "Im1= 0.75*Im #in amp\n",
+      "V1= Im1*(R+Rm) # in volt\n",
+      "print \"Applied voltage at instrument current 0.75 FSD = %0.f volts\" %V1 \n",
+      "\n",
+      "Im2= 0.5*Im #in amp\n",
+      "V2= Im2*(R+Rm) # in volt\n",
+      "print \"Applied voltage at instrument current 0.5 FSD  = %0.f volts\" %V2 \n",
+      "\n",
+      "Im3= 0.25*Im #in amp\n",
+      "V3= Im3*(R+Rm) # in volt\n",
+      "print \"Applied voltage at instrument current 0.25 FSD = %0.f volts\" %V3 \n",
+      "\n",
+      "Im4= 0.1*Im #in amp\n",
+      "V4= Im4*(R+Rm) # in volt\n",
+      "print \"Applied voltage at instrument current 0.1 FSD  = %0.f volts\" %V4 \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "External required resistance = 499.99 kohm\n",
+        "Applied voltage at instrument current 0.75 FSD = 75 volts\n",
+        "Applied voltage at instrument current 0.5 FSD  = 50 volts\n",
+        "Applied voltage at instrument current 0.25 FSD = 25 volts\n",
+        "Applied voltage at instrument current 0.1 FSD  = 10 volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 44
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.16 - Page No : 72"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "CS= 0.1*10**-3 # current sensitivity in amp\n",
+      "VS= 1/CS # voltage sensitivity in ohm/volt\n",
+      "VS= VS*10**-3 # in kohm/volt\n",
+      "Rm=500 # in ohm\n",
+      "Rm=Rm*10**-3 # in kohm\n",
+      "\n",
+      "# (i) 0-10 V range\n",
+      "V=10 # full scale delection voltage in volt\n",
+      "R_T= VS*V # in kohm\n",
+      "R1= R_T-Rm # in kohm\n",
+      "print \"Additional required resistance at 0-10 V range  = %0.1f kohm\" %R1\n",
+      "\n",
+      "# (ii) 0-50 V range\n",
+      "V=50 # full scale delection voltage in volt\n",
+      "R_T= VS*V # in kohm\n",
+      "R2= R_T-R1-Rm # in kohm\n",
+      "print \"Additional required resistance at 0-50 V range  = %0.f kohm\" %R2\n",
+      "\n",
+      "# (i) 0-100 V range\n",
+      "V=100 # full scale delection voltage in volt\n",
+      "R_T= VS*V # in kohm\n",
+      "R3= R_T-R1-R2-Rm # in kohm\n",
+      "print \"Additional required resistance at 0-100 V range = %0.f kohm\" %R3\n",
+      "\n",
+      "# (i) 0-500 V range\n",
+      "V=500 # full scale delection voltage in volt\n",
+      "R_T= VS*V # in kohm\n",
+      "R4= R_T-R1-R2-R3-Rm # in kohm\n",
+      "print \"Additional required resistance at 0-500 V range = %0.f kohm\" %R4\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Additional required resistance at 0-10 V range  = 99.5 kohm\n",
+        "Additional required resistance at 0-50 V range  = 400 kohm\n",
+        "Additional required resistance at 0-100 V range = 500 kohm\n",
+        "Additional required resistance at 0-500 V range = 4000 kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 47
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.17 - Page No : 74"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "E= 1.5 # in V\n",
+      "R1addRm= 10 # addition of R1 and Rm in kohm\n",
+      "Rx= 0 \n",
+      "R=R1addRm+Rx # in kohm\n",
+      "R=R*10**3 # in ohm\n",
+      "I= E/R #meter FSD current in amp\n",
+      "\n",
+      "# At 0.8 FSD\n",
+      "Im= 0.8*I # in amp\n",
+      "R= E/Im # in ohm\n",
+      "R=R*10**-3 # in kohm\n",
+      "Rx= R-R1addRm #in kohm\n",
+      "print \"Unknown resistance at 0.8 FSD  = %0.1f k\u03a9\" %Rx\n",
+      "\n",
+      "# At 0.5 FSD\n",
+      "Im= 0.5*I # in amp\n",
+      "R= E/Im # in ohm\n",
+      "R=R*10**-3 # in kohm\n",
+      "Rx= R-R1addRm #in kohm\n",
+      "print \"Unknown resistance at 0.5 FSD  = %0.f k\u03a9\" %Rx\n",
+      "\n",
+      "# At 0.25 FSD\n",
+      "Im= 0.25*I # in amp\n",
+      "R= E/Im # in ohm\n",
+      "R=R*10**-3 # in kohm\n",
+      "Rx= R-R1addRm #in kohm\n",
+      "print \"Unknown resistance at 0.25 FSD = %0.f k\u03a9\" %Rx\n",
+      "\n",
+      "# At 0.1 FSD\n",
+      "Im= 0.1*I # in amp\n",
+      "R= E/Im # in ohm\n",
+      "R=R*10**-3 # in kohm\n",
+      "Rx= R-R1addRm #in kohm\n",
+      "print \"Unknown resistance at 0.1 FSD  = %0.f k\u03a9\" %Rx\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Unknown resistance at 0.8 FSD  = 2.5 k\u03a9\n",
+        "Unknown resistance at 0.5 FSD  = 10 k\u03a9\n",
+        "Unknown resistance at 0.25 FSD = 30 k\u03a9\n",
+        "Unknown resistance at 0.1 FSD  = 90 k\u03a9\n"
+       ]
+      }
+     ],
+     "prompt_number": 50
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 3.18 - Page No : 74"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Rm= 50 # in ohm\n",
+      "R1= 10 # in kohm\n",
+      "R1=R1*10**3 # in ohm\n",
+      "R2= 50 # in ohm\n",
+      "Im_FSD= 100*10**-6 #meter FSD current in amp\n",
+      "\n",
+      "# At 0.5 FSD , with 1.5 V\n",
+      "E=1.5 # in volt\n",
+      "Im= 0.5*Im_FSD # in amp\n",
+      "Vm= Im*Rm # in volt\n",
+      "I0= Vm/R2 #in amp\n",
+      "I=I0+Im # in amp\n",
+      "Rx= E/I-R1 # in ohm\n",
+      "Rx=Rx*10**-3 #in kohm\n",
+      "print \"Unknown resistance at 0.5 FSD with 1.5 V = %0.f kohm\" %Rx\n",
+      "# With E= 1.25 V and Rx=0\n",
+      "E=1.25 # in volt\n",
+      "Rx=0 \n",
+      "I=E/(R1+Rx) # in amp\n",
+      "I0=I-Im_FSD # in amp\n",
+      "Vm= Im_FSD*Rm # in volt\n",
+      "R2= Vm/I0 # in ohm\n",
+      "print \"Zero adjuster resistance = %0.f ohm\" %R2\n",
+      "\n",
+      "# At 0.5 FSD , with 1.25 V\n",
+      "E=1.25 # in volt\n",
+      "Im= 0.5*Im_FSD # in amp\n",
+      "Vm= Im*Rm # in volt\n",
+      "I0= Vm/R2 #in amp\n",
+      "I=I0+Im # in amp\n",
+      "Rx= E/I-R1 # in ohm\n",
+      "Rx=Rx*10**-3 #in kohm\n",
+      "print \"Unknown resistance at 0.5 FSD with 1.25 V = %0.f kohm\" %Rx"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Unknown resistance at 0.5 FSD with 1.5 V = 5 kohm\n",
+        "Zero adjuster resistance = 200 ohm\n",
+        "Unknown resistance at 0.5 FSD with 1.25 V = 10 kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 51
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_04_1.ipynb b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_04_1.ipynb
new file mode 100755
index 00000000..40d5c095
--- /dev/null
+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_04_1.ipynb
@@ -0,0 +1,256 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:ba40baa44e757ea3e91ab8f89704f149291740011280e5a0d9caa508edb83db1"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter - 4 : Analog Electronic Meters"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example 4.1 - Page No : 86\n",
+      " "
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "#Given data\n",
+      "V_CC= 12 # in volt\n",
+      "V_BE=0.7 #in volt\n",
+      "Rsm=4.3 #value o Rs+Rm in kohm\n",
+      "I=1 #in mA\n",
+      "\n",
+      "# Part (i)\n",
+      "V= 5 #in volt\n",
+      "V_E= V-V_BE # in volt\n",
+      "Im= V_E/Rsm # in mA\n",
+      "I_E=Im # in mA\n",
+      "print \"Meter Current = %0.f mA\" %Im\n",
+      "\n",
+      "# Part(ii)\n",
+      "h_FE= 100 \n",
+      "Im=Im*10**-3 #in amp\n",
+      "I_B= Im/h_FE # in amp\n",
+      "Rin= V/I_B # in ohm\n",
+      "print \"Input resistance with transistor = %0.f kohm\" %(Rin*10**-3)\n",
+      "# without transistor\n",
+      "Rin= Rsm \n",
+      "print \"Input resistance without transistor = %0.1f kohm\" %Rin\n",
+      "\n",
+      "# Part(iii)\n",
+      "V=2.5 # in volt\n",
+      "V_E= V-V_BE # in volt\n",
+      "Im= V_E/Rsm # in mA\n",
+      "I_E=Im # in mA\n",
+      "print \"Meter current when the dc input voltage is 2.5 volt = %0.2f mA\" %Im"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Meter Current = 1 mA\n",
+        "Input resistance with transistor = 500 kohm\n",
+        "Input resistance without transistor = 4.3 kohm\n",
+        "Meter current when the dc input voltage is 2.5 volt = 0.42 mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example 4.2 - Page No : 87"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "V_CC= 12 # in volt\n",
+      "V_BE=0.7 #in volt\n",
+      "R_E1=3.3 # in kohm\n",
+      "V_EE= -12 # in volt\n",
+      "# Part (a) when V=0\n",
+      "V= 0 #in volt\n",
+      "V_E1= V-V_BE-V_EE # in volt\n",
+      "I_E1= V_E1/R_E1 # in mA\n",
+      "print \"Emitter current when input voltage is zero volt = %0.1f mA\" %I_E1\n",
+      "\n",
+      "# Part(b)\n",
+      "# Part (i) when V=2 volt\n",
+      "V= 2 #in volt\n",
+      "V_P=0 \n",
+      "V_E1= V-V_BE # in volt\n",
+      "V_E2= V_P-V_BE # in volt\n",
+      "Vm= V_E1-V_E2 # in volt\n",
+      "print \"Meter circuit voltage when input voltage is 2 volt = %0.f V\" %Vm\n",
+      "\n",
+      "# Part (ii) when V=1 volt\n",
+      "V= 1 #in volt\n",
+      "V_P=0 \n",
+      "V_E1= V-V_BE # in volt\n",
+      "V_E2= V_P-V_BE # in volt\n",
+      "Vm= V_E1-V_E2 # in volt\n",
+      "print \"Meter circuit voltage when input voltage is 1 volt = %0.f V\" %Vm"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Emitter current when input voltage is zero volt = 3.4 mA\n",
+        "Meter circuit voltage when input voltage is 2 volt = 2 V\n",
+        "Meter circuit voltage when input voltage is 1 volt = 1 V\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example 4.4 - Page No : 92"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Im= 200 # in micro A\n",
+      "Im=Im*10**-6 # in amp\n",
+      "Rm= 5 # in kohm\n",
+      "Rm=Rm*10**3 # in ohm\n",
+      "I_B= 0.5 # in micro amp\n",
+      "I_B=I_B*10**-6 # in amp\n",
+      "V=25 # in mV\n",
+      "V=V*10**-3 # in volt\n",
+      "Vout= Im*Rm # in volt\n",
+      "I= 500*I_B # in amp\n",
+      "R1= V/I # in ohm\n",
+      "print \"The value of resistor = %0.f ohm\" %R1\n",
+      "Rf= (Vout-V)/I # in ohm\n",
+      "print \"Feedback resistor = %0.1f kohm\" %(Rf*10**-3)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of resistor = 100 ohm\n",
+        "Feedback resistor = 3.9 kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example 4.5 - Page No : 93"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Im= 1 # in mA\n",
+      "Im=Im*10**-3 # in amp\n",
+      "Rm= 100 # in ohm\n",
+      "V=1.2 # in volt\n",
+      "R1= V/Im # in ohm\n",
+      "print \"The value of resistance = %0.1f kohm\" %(R1*10**-3)\n",
+      "Vout= Im*(Rm+R1) # in volt\n",
+      "print \"Output voltage = %0.1f V\" %Vout"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of resistance = 1.2 kohm\n",
+        "Output voltage = 1.3 V\n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example 4.6 - Page No : 100"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from math import sqrt \n",
+      "#Given data\n",
+      "Vrms=120 # in mV\n",
+      "Iav= 1.25 # in mA\n",
+      "I_max= 1/0.318*Iav # in mA\n",
+      "Vmax= sqrt(2)*Vrms # in mV\n",
+      "R2= Vmax/I_max # in ohm\n",
+      "print \"Value of R2 = %0.1f ohm\" %R2\n",
+      "# when input voltage is 60 volt\n",
+      "Vrms=60 # in mV\n",
+      "Vmax= sqrt(2)*Vrms # in mV\n",
+      "I_max= Vmax/R2 # in mA\n",
+      "Iav= I_max*0.318 # in mA\n",
+      "print \"Average value of meter current = %0.3f mA\" %Iav"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of R2 = 43.2 ohm\n",
+        "Average value of meter current = 0.625 mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_05_1.ipynb b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_05_1.ipynb
new file mode 100755
index 00000000..3c3e2342
--- /dev/null
+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_05_1.ipynb
@@ -0,0 +1,638 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:3339b00236a2f81e5e5e7b7f9b1a7ab1f4ae4cfea924466604e158fa53da71b7"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter - 5 : Digital Meters"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.1 - Page No : 117"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from __future__ import division\n",
+      "#Given data\n",
+      "V_REF= 10 # in volt\n",
+      "w2= V_REF/2 # The second MSB weight in volt\n",
+      "print \"The second MSB weight = %0.f V\" %w2\n",
+      "w3= V_REF/4 # The third MSB weight in volt\n",
+      "print \"The third MSB weight = %0.1f V\" %w3\n",
+      "w4= V_REF/8 # The forth MSB weight in volt\n",
+      "print \"The forth MSB weight = %0.2f V\" %w4\n",
+      "\n",
+      "# (i)\n",
+      "r_DAC= w4 # resolution of the DAC in volt\n",
+      "print \"(i) : Resolutio of the DAC = %0.2f V\" %r_DAC  \n",
+      "\n",
+      "#(ii)\n",
+      "FSO= V_REF+w2+w3+w4 #full scale output in volt\n",
+      "print \"(ii) : Full scale output = %0.2f V\" %FSO\n",
+      "\n",
+      "# (iii)\n",
+      "FSO_R= FSO/4 # full scale output when the feedback resistor is made one fourth of R in volt\n",
+      "print \"(iii) : The full scale output when the feedback resistor is made one fourth of R i volt = %0.4f\" %FSO_R"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The second MSB weight = 5 V\n",
+        "The third MSB weight = 2.5 V\n",
+        "The forth MSB weight = 1.25 V\n",
+        "(i) : Resolutio of the DAC = 1.25 V\n",
+        "(ii) : Full scale output = 18.75 V\n",
+        "(iii) : The full scale output when the feedback resistor is made one fourth of R i volt = 4.6875\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.2 - Page No : 117"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "V_REF= -5 # in volt\n",
+      "V_A= -5 # in volt\n",
+      "V_C=V_A # in volt\n",
+      "V_D=V_C # in volt\n",
+      "V_B= 0 \n",
+      "Vout= -1*(V_A+V_B/2+V_C/4+V_D/8) \n",
+      "print \"Output voltage = %0.3f V\" %Vout "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Output voltage = 6.875 V\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.3\n",
+      " - Page No :"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "D=16 \n",
+      "D1= D/2 # first MSB output in volt\n",
+      "print \"First MSB output  = %0.f V\" %D1 \n",
+      "D2= D/4 # second MSB output in volt\n",
+      "print \"Second MSB output = %0.f V\" %D2 \n",
+      "D3= D/8 # third MSB output in volt\n",
+      "print \"Third MSB output  = %0.f V\" %D3\n",
+      "D4= D/16 # fourth MSB output in volt\n",
+      "print \"Fourth MSB output = %0.f V\" %D4 \n",
+      "D5= D/32 # fifth MSB output in volt\n",
+      "print \"Fifth MSB output  = %0.1f V\" %D5\n",
+      "D6= D/64 # sixth MSB (LSB) output in volt\n",
+      "print \"Sixth MSB (LSB) output = %0.2f V\" %D6 \n",
+      "print \"The resolution is equal to the weight of the LSB       = %0.2f V\" %D6\n",
+      "# Full scale output occurs for a digital input of 111111\n",
+      "FSO= D1+D2+D3+D4+D5+D6 # in volt\n",
+      "print \"Full scale output occurs for a digital input of 111111 = %0.2f V\" %FSO\n",
+      "# The output voltage for a digital input of 101011\n",
+      "D0=16 \n",
+      "D1=16 \n",
+      "D2=0 \n",
+      "D3=16 \n",
+      "D4=0 \n",
+      "D5=16 \n",
+      "Vout= ( D0*2**0 + D1*2**1 + D2*2**2 + D3*2**3 + D4*2**4 + D5*2**5  )/64 # in volt\n",
+      "print \"The output voltage for  digital input of 101011        = %0.2f V\" %Vout"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "First MSB output  = 8 V\n",
+        "Second MSB output = 4 V\n",
+        "Third MSB output  = 2 V\n",
+        "Fourth MSB output = 1 V\n",
+        "Fifth MSB output  = 0.5 V\n",
+        "Sixth MSB (LSB) output = 0.25 V\n",
+        "The resolution is equal to the weight of the LSB       = 0.25 V\n",
+        "Full scale output occurs for a digital input of 111111 = 15.75 V\n",
+        "The output voltage for  digital input of 101011        = 10.75 V\n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.4 - Page No : 123"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R=100 # in kohm\n",
+      "R=R*10**3 #in ohm\n",
+      "C=1*10**-6 # in F\n",
+      "V_REF= 5 # in volt\n",
+      "t=0.2 # time taken to read unknown voltage in sec\n",
+      "T=R*C # in sec\n",
+      "Vx= T/t*V_REF # in volt\n",
+      "print \"The value of Unknown voltage = %0.1f V\" %Vx"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of Unknown voltage = 2.5 V\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.5 - Page No : 124"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "# For an 8-bit converter reference voltage V_REF be taken as 100 V\n",
+      "V_REF= 100 # in volt\n",
+      "f=75*10**6 # in Hz\n",
+      "# For setting\n",
+      "D7=1 \n",
+      "Vout1= V_REF*2**7/2**8 # in volt\n",
+      "print \"For D7 = 1, The output voltage    = %0.f volt\" %Vout1\n",
+      "# since 180-100 = 80 > 50  set D7=1\n",
+      "\n",
+      "# For setting\n",
+      "D6=1 \n",
+      "Vout2= V_REF*2**6/2**8 # in volt\n",
+      "print \"For D6 = 1, The output voltage    = %0.f volt\" %Vout2\n",
+      "# Hence for setting D7=1 and D6=1 output voltage\n",
+      "Vout3= Vout1+Vout2 # in volt\n",
+      "print \"D7 and D6 = 1, The output voltage = %0.f volt\" %Vout3\n",
+      "# since 80>75  set D6=1\n",
+      "# For setting D5=1, D6=1 and D7=1\n",
+      "Vout4   = V_REF*2**5/2**8 + Vout1+ Vout2 # in volt\n",
+      "print \"For D6 = 1, The output voltage    = %0.1f volt\" %Vout4\n",
+      "print \"All other digits will be set to zero or 1. Output will be accordingly indicated as a result of successive approximation.\"\n",
+      "print \"The Converted 8-bit digital form will be 1110010\"\n",
+      "T=1/f #in sec\n",
+      "print \"Conversion time = %0.1f ns\" %(T*10**9)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "For D7 = 1, The output voltage    = 50 volt\n",
+        "For D6 = 1, The output voltage    = 25 volt\n",
+        "D7 and D6 = 1, The output voltage = 75 volt\n",
+        "For D6 = 1, The output voltage    = 87.5 volt\n",
+        "All other digits will be set to zero or 1. Output will be accordingly indicated as a result of successive approximation.\n",
+        "The Converted 8-bit digital form will be 1110010\n",
+        "Conversion time = 13.3 ns\n"
+       ]
+      }
+     ],
+     "prompt_number": 27
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.6 - Page No : 124"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "N=8 # Number of bits\n",
+      "f=1*10**6 # in Hz\n",
+      "T=1/f \n",
+      "Tc= N*T # in second\n",
+      "print \"Time of conversion = %0.f \u00b5s\" %(Tc*10**6)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Time of conversion = 8 \u00b5s\n"
+       ]
+      }
+     ],
+     "prompt_number": 29
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.7 - Page No : 124"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Vin= 2 # in volt\n",
+      "Vout= 10 # in volt\n",
+      "R=100 # kohm\n",
+      "R=R*10**3 # in ohm\n",
+      "C= 0.1 # in miu F\n",
+      "C=C*10**-6 # in F\n",
+      "#  Vout= -1/(R*C)*integrate('Vin','t',0,t) = -Vin*t/(R*C)\n",
+      "t= Vout*R*C/Vin # in sec\n",
+      "print \"The maximum time upto which the reference voltage can be integrated = %0.f ms\" %(t*10**3) "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The maximum time upto which the reference voltage can be integrated = 50 ms\n"
+       ]
+      }
+     ],
+     "prompt_number": 30
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.8 - Page No : 134"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "n=3 \n",
+      "R=1/10**n \n",
+      "fs1=1 # full scale range of 1 v\n",
+      "r1= fs1*R # resolution for full scale range of 1 V\n",
+      "print \"Resolution for full scale range of 1 V  = %0.3f V\" %r1\n",
+      "fs2=10 # full scale range of 10 v\n",
+      "r2= fs2*R # resolution for full scale range of 10 V\n",
+      "print \"Resolution for full scale range of 10 V = %0.2f V\" %r2\n",
+      "# The display for 2 V reading on 10 V scale of 3*1/2 digital meter would be 02.00 i.e\n",
+      "reading=2 \n",
+      "LSD= 5*R # in volt\n",
+      "Total_pos_Error= reading*0.5/100+LSD #in volt\n",
+      "print \"Total possible error = %0.3f V\" %Total_pos_Error"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resolution for full scale range of 1 V  = 0.001 V\n",
+        "Resolution for full scale range of 10 V = 0.01 V\n",
+        "Total possible error = 0.015 V\n"
+       ]
+      }
+     ],
+     "prompt_number": 31
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.9 - Page No : 134"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R= 1/10**4 # resolution\n",
+      "print \"Resolution of voltmeter = %0.4f\" %R\n",
+      "reading1= 16.58 \n",
+      "reading2= 0.7254 \n",
+      "print \"There are 5 digit places in 4\u00bd display, so \",round(reading1,2),\" would be displayed as 16.580 V on a 10V range \"\n",
+      "print \"Any reading up to 4th decimal can be displayed.\"\n",
+      "print \"Hence \",round(reading2,4),\" will be displayed as : \",reading2\n",
+      "R= 10*R # resolution on 10 V range\n",
+      "print \"Resolution of 10 V range =\",round(R,3),\" So\"\n",
+      "print \"0.7254 will be displayed as : \",round(reading2,3),\"instead of\",reading2"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resolution of voltmeter = 0.0001\n",
+        "There are 5 digit places in 4\u00bd display, so  16.58  would be displayed as 16.580 V on a 10V range \n",
+        "Any reading up to 4th decimal can be displayed.\n",
+        "Hence  0.7254  will be displayed as :  0.7254\n",
+        "Resolution of 10 V range = 0.001  So\n",
+        "0.7254 will be displayed as :  0.725 instead of 0.7254\n"
+       ]
+      }
+     ],
+     "prompt_number": 37
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.10 - Page No : 135"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from __future__ import division \n",
+      "#Given data\n",
+      "n=3 \n",
+      "R=1/10**n \n",
+      "fs1=10 # full scale range of 10 v\n",
+      "r1= fs1*R # resolution for full scale range of 10 V\n",
+      "print \"Resolution for full scale range of 10 V = \",r1\n",
+      "fs2=100 # full scale range of 100 v\n",
+      "r2= fs2*R # resolution for full scale range of 100 V\n",
+      "print \"Resolution for full scale range of 100 V = \",r2\n",
+      "print \"The display of 14.53 V reading on 10 V scale would be 14.530\"\n",
+      "print \"The display of 14.53 V reading on 100 V scale would be 0145.3\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resolution for full scale range of 10 V =  0.01\n",
+        "Resolution for full scale range of 100 V =  0.1\n",
+        "The display of 14.53 V reading on 10 V scale would be 14.530\n",
+        "The display of 14.53 V reading on 100 V scale would be 0145.3\n"
+       ]
+      }
+     ],
+     "prompt_number": 43
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.11 - Page No : 135"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from numpy import pi\n",
+      "#Given data\n",
+      "Vmax= 255 # in volt\n",
+      "Vx= 180 # in volt\n",
+      "f=10 # in kHz\n",
+      "f=f*10**3 # in Hz\n",
+      "t= (Vmax-Vx)/(2*pi*f*Vmax) # time taken to read the unknown voltage in second\n",
+      "t=t*10**6 # in micro second\n",
+      "print \"Time taken to read the unknown voltage = %0.2f \u00b5s\" %t "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Time taken to read the unknown voltage = 4.68 \u00b5s\n"
+       ]
+      }
+     ],
+     "prompt_number": 45
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.12 - Page No : 146"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f=2.5 # in kHz\n",
+      "f=f*10**3 # in Hz\n",
+      "# Part (i) when\n",
+      "t=0.1 # in sec\n",
+      "count= f*t \n",
+      "print \"When GATE ENABLE time is 0.1 sec then the counter count or display = %0.f\" %count\n",
+      "# Part (ii) when\n",
+      "t=1 # in sec\n",
+      "count= f*t \n",
+      "print \"When GATE ENABLE time is 1 sec then the counter count or display   = %0.f\" %count\n",
+      "# Part (iii) when\n",
+      "t=10 # in sec\n",
+      "count= f*t \n",
+      "print \"When GATE ENABLE time is 10 sec then the counter count             = %0.f\" %count"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "When GATE ENABLE time is 0.1 sec then the counter count or display = 250\n",
+        "When GATE ENABLE time is 1 sec then the counter count or display   = 2500\n",
+        "When GATE ENABLE time is 10 sec then the counter count             = 25000\n"
+       ]
+      }
+     ],
+     "prompt_number": 47
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.13 - Page No : 147"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "N=45 # unit less\n",
+      "t=10 # in ms\n",
+      "t=t*10**-3 # in sec\n",
+      "f=N/t # Hz\n",
+      "f=f*10**-3 # in kHz\n",
+      "print \"The value of frequency = %0.1f kHz\" %f"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of frequency = 4.5 kHz\n"
+       ]
+      }
+     ],
+     "prompt_number": 49
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.14 - Page No : 147"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "totalPulse= 174 # unit less\n",
+      "t=100 #time period of total pulses in miu s\n",
+      "t=t*10**-6 # in sec\n",
+      "t1= t/totalPulse # time period of one pulse in sec\n",
+      "f= 1/t1 # frequency in Hz\n",
+      "f=f*10**-6 # in MHz\n",
+      "print \"The value of frequency = %0.2f MHz\" %f \n",
+      "resolution= totalPulse/t # in sec\n",
+      "resolution=resolution*10**-6 # per micro sec\n",
+      "print \"Resolution of measurement = %0.2f per \u00b5s\" %resolution"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of frequency = 1.74 MHz\n",
+        "Resolution of measurement = 1.74 per \u00b5s\n"
+       ]
+      }
+     ],
+     "prompt_number": 51
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  5.15 - Page No : 147"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "t=1/(2*10**6)  # time of one cycle o 2MHz clock in sec\n",
+      "N=500 # number of cycle\n",
+      "t1= N*t # time of 1 cycle by the electronic counter in sec\n",
+      "f= 1/t1 # in Hz\n",
+      "f=f*10**-3 # in kHz\n",
+      "print \"The value of frequency of input signal = %0.f kHz\" %f"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of frequency of input signal = 4 kHz\n"
+       ]
+      }
+     ],
+     "prompt_number": 52
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_06_1.ipynb b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_06_1.ipynb
new file mode 100755
index 00000000..b4318d00
--- /dev/null
+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_06_1.ipynb
@@ -0,0 +1,607 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:7af95e71b6cf98d68e11993a774d3756f4ae51c9cf67e86b78531811773b4bb7"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter - 6 : Resistance Measurements"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.1 - Page No : 156\n",
+      " "
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "#Given data\n",
+      "V= 100 # in volt\n",
+      "I=5 # in mA\n",
+      "I=I*10**-3 # in amp\n",
+      "VS= 1000 # sensitivity of voltmeter in ohm\n",
+      "VR= 150 # voltmeter range in volt\n",
+      "Rv= VS*VR # in ohm\n",
+      "# Part (i)\n",
+      "Rm= V/I # in ohm\n",
+      "Rm= Rm*10**-3 # in kohm\n",
+      "print \"Apparent value of unknown resistor = %0.f kohm\" %Rm \n",
+      "\n",
+      "# Part (ii)\n",
+      "Rx= V/(I*(1-V/(I*Rv))) # in ohm\n",
+      "Rx= Rx*10**-3 #/ in kohm\n",
+      "print \"Actual value of unknown resistor = %0.3f kohm\" %Rx\n",
+      "\n",
+      "# Part (iii)\n",
+      "epsilon_r= (Rm-Rx)/Rx*100 # in %\n",
+      "print \"Error percentage due to loading effect of voltmeter = %0.2f %%\" %epsilon_r "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Apparent value of unknown resistor = 20 kohm\n",
+        "Actual value of unknown resistor = 23.077 kohm\n",
+        "Error percentage due to loading effect of voltmeter = -13.33 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.2 - Page No : 156"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from __future__ import division\n",
+      "from math import sqrt\n",
+      "#Given data\n",
+      "V=38.4 # in volt\n",
+      "I=0.4 # in amp\n",
+      "ammeterRange= 1 # in amp\n",
+      "voltmeterRange= 50 # in volt\n",
+      "inst_acc= 1/2 # instrument accurcy in %\n",
+      "R= 100 # resistance in ohm\n",
+      "\n",
+      "R_A= 2.5 # in ohm\n",
+      "R_V= 6000 # in ohm\n",
+      "Rx= sqrt(R_A*R_V) # in ohm\n",
+      "print \"Value of unknown resistance = %0.1f ohm\" %Rx\n",
+      "print \"Since the unknown resistance is of value smaller than \",round(Rx,1),\" ohm, the voltmeter should be connected\"\n",
+      "print \"directly across the unknown resistance as it will give more accurate result\"\n",
+      "Rm= V/I # in ohm\n",
+      "Rx= V/(I*(1-V/(I*R_V))) # in ohm\n",
+      "ErrorAmmeter= inst_acc*ammeterRange/R # Error in ammeter reading in amp\n",
+      "ErrorVoltmeter= inst_acc*voltmeterRange/R # Error in voltmeter reading in volt\n",
+      "# Percentage error at 0.4 A reading \n",
+      "E1= ErrorAmmeter/0.4*100 #in %\n",
+      "# Percentage error at 38.4 V reading \n",
+      "E2= ErrorVoltmeter/38.4*100 #in %\n",
+      "#Error due to ammeter and voltmeter\n",
+      "E= sqrt(E1**2+E2**2) \n",
+      "#Absolute error due to ammeter and voltmeter\n",
+      "Error_ammeter_voltmeter= E/R*Rx # in pos and neg\n",
+      "print \"\\nAbsolute error due to ammeter and voltmeter = %0.3f ohm\" %Error_ammeter_voltmeter\n",
+      "print \"So the resistance is specified as (\",round(Rx,2),\"\u00b1\",round(Error_ammeter_voltmeter,3),\") ohm\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of unknown resistance = 122.5 ohm\n",
+        "Since the unknown resistance is of value smaller than  122.5  ohm, the voltmeter should be connected\n",
+        "directly across the unknown resistance as it will give more accurate result\n",
+        "\n",
+        "Absolute error due to ammeter and voltmeter = 1.375 ohm\n",
+        "So the resistance is specified as ( 97.56 \u00b1 1.375 ) ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.3 - Page No : 157"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "V=120 # in volt\n",
+      "I=8 # in amp\n",
+      "R_A= 0.3 # in ohm\n",
+      "ammeterReading= 0.01 # in A\n",
+      "voltmeterReading= 0.1 # in V\n",
+      "AmmeterRange= 10 #in A\n",
+      "VoltmeterRange= 150 #in V\n",
+      "EA= 0.25 # constructional error of the ammeter in %\n",
+      "EV= 0.5 # constructional error of the voltmeter in %\n",
+      "\n",
+      "Rm= V/I # in ohm\n",
+      "Rx= Rm-R_A # in ohm\n",
+      "ErrorAmmeter= ammeterReading/AmmeterRange*100 # in %\n",
+      "ErrorVoltmeter= voltmeterReading/VoltmeterRange*100 # in %\n",
+      "del_I= ErrorAmmeter+EA # in %\n",
+      "del_V= ErrorVoltmeter+EV # in %\n",
+      "# since R=V/I\n",
+      "TotalError= del_I+del_V # in % in neg and pos\n",
+      "print \"Total systematic error in measurement = \u00b1 %0.3f %%\" %TotalError\n",
+      "print \"So the value of Rx is specified as : (\",round(Rx,1),\"\u00b1\",round(Rx*TotalError/100,3),\") ohm\"\n",
+      "    "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Total systematic error in measurement = \u00b1 0.917 %\n",
+        "So the value of Rx is specified as : ( 14.7 \u00b1 0.135 ) ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.4 - Page No : 164"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "P=100 # in ohm\n",
+      "Q=10 # in ohm\n",
+      "S=46 # in ohm\n",
+      "R= P*S/Q #in ohm\n",
+      "print \"The value of unknown resistance = %0.f ohm\" %R"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of unknown resistance = 460 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 17
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.5 - Page No : 164"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "S=6 # in ohm\n",
+      "AB= 25 # in cm\n",
+      "BC= 75 # in cm\n",
+      "R= S*AB/BC # in ohm\n",
+      "print \"The value of unknown resistance = %0.f ohm\" %R"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of unknown resistance = 2 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 18
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.6 - Page No : 164"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "resistor= 5000 # in ohm\n",
+      "LVR1= resistor-resistor*0.1/100 # Limiting value of 5000 ohm resistor in negative error\n",
+      "LVR2= resistor+resistor*0.1/100  #Limiting value of 5000 ohm resistor in positve error\n",
+      "print \"Limiting value of 5000 ohm resistance =\",int(LVR1),\"to\",int(LVR2),\"ohm\"\n",
+      "print \"Thus dials of 1000 , 100 , 10 and 1 ohm would to be adjusted\" "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Limiting value of 5000 ohm resistance = 4995 to 5005 ohm\n",
+        "Thus dials of 1000 , 100 , 10 and 1 ohm would to be adjusted\n"
+       ]
+      }
+     ],
+     "prompt_number": 21
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.7 - Page No : 164"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "P=100 # in ohm\n",
+      "Q=100 # in ohm\n",
+      "S=230 # in ohm\n",
+      "R=P*S/Q # in ohm\n",
+      "del_P_BY_P= 0.02 # in %\n",
+      "del_Q_BY_Q= 0.02 # in %\n",
+      "del_S_BY_S= 0.01 # in %\n",
+      "del_R_BY_R= del_P_BY_P + del_Q_BY_Q + del_S_BY_S # in %\n",
+      "print \"Relative limiting error of unknown resistance = %0.2f %%\" %del_R_BY_R\n",
+      "print \"So limiting values of unknown resistance =\",round(R-R*del_R_BY_R/100,3),\"to\",round(R+R*del_R_BY_R/100,3),\"ohm\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Relative limiting error of unknown resistance = 0.05 %\n",
+        "So limiting values of unknown resistance = 229.885 to 230.115 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 24
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.8 - Page No : 165"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "P=1000 # in ohm\n",
+      "Q=1000 # in ohm\n",
+      "S=100 # in ohm\n",
+      "E=2 # in volt\n",
+      "Rg=50 # in ohm\n",
+      "R_desh= 101 # in ohm\n",
+      "R=Q*S/P # in ohm\n",
+      "del_R= R_desh-R # in ohm\n",
+      "E_Th= E*((R+del_R)/(R+del_R+S)- P/(P+Q)) # in volt\n",
+      "R_Th= ((R+del_R)*S/(R+del_R+S)+ P*Q/(P+Q)) #in ohm\n",
+      "Ig= E_Th/(R_Th+Rg) # in amp\n",
+      "Ig=Ig*10**+6 # in micro amp\n",
+      "print \"The galvanometer current = %0.3f \u00b5A\" %Ig"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The galvanometer current = 8.288 \u00b5A\n"
+       ]
+      }
+     ],
+     "prompt_number": 27
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.9 - Page No : 165"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "P=100 # in ohm\n",
+      "Q=1000 # in ohm\n",
+      "S=2000 # in ohm\n",
+      "E=5 # in volt\n",
+      "Si= 5 # in mm/miuA\n",
+      "Rg=200 # in ohm\n",
+      "R_desh= 202 # in ohm\n",
+      "R=P*S/Q # in ohm\n",
+      "del_R= R_desh-R # in ohm\n",
+      "E_Th= E*((R+del_R)/(R+del_R+S)- P/(P+Q)) # in volt\n",
+      "R_Th= ((R+del_R)*S/(R+del_R+S)+ P*Q/(P+Q)) #in ohm\n",
+      "Ig= E_Th/(R_Th+Rg) # in amp\n",
+      "Ig=Ig*10**+6 # in micro amp\n",
+      "theta= Si*Ig # in mm\n",
+      "print \"Deflection of the galvanometer = %0.1f mm\" %theta\n",
+      "S_B= theta/del_R # in mm/ohm\n",
+      "print \"Sensitivity of the bridge = %0.2f mm/ohm\" %S_B"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Deflection of the galvanometer = 43.5 mm\n",
+        "Sensitivity of the bridge = 21.76 mm/ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 30
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.10 - Page No : 166"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "P=1000 # in ohm\n",
+      "Q=100 # in ohm\n",
+      "R=200 # in ohm\n",
+      "E=5 # in volt\n",
+      "Si1= 10 # in mm/miuA\n",
+      "Si2= 5 # in mm/miuA\n",
+      "Rg1= 400 # in ohm\n",
+      "Rg2= 100 # in ohm\n",
+      "S=R*Q/P # in ohm\n",
+      "R_Th= R*S/(R+S)+ P*Q/(P+Q) # in ohm\n",
+      "# theta=Si1*E*S*del_R/((R+S)**2*(R_Th+Rg))\n",
+      "# RatioTheta21= theta2/theta1  \n",
+      "RatioTheta21= Si2/Si1*(R_Th+Rg1)/(R_Th+Rg2) \n",
+      "print \"Ratio of deflection on two galvanometers = %0.3f\" %RatioTheta21"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Ratio of deflection on two galvanometers = 1.217\n"
+       ]
+      }
+     ],
+     "prompt_number": 31
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.11 - Page No : 167"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "P=500 # in ohm\n",
+      "S=P \n",
+      "Q=S \n",
+      "R=P \n",
+      "R_Th=R # in ohm\n",
+      "Rg=100 # in ohm\n",
+      "E=10 # in volt\n",
+      "Ig= 1 # in nA\n",
+      "Ig=Ig*10**-9 #in amp\n",
+      "# Formula Ig= E_Th/(R_Th+Rg) and E_Th= E*del_R/(4*R) so\n",
+      "# Ig= (E*del_R/(4*R))/(R_Th+Rg) and\n",
+      "del_R= Ig*(R_Th+Rg)*4*R/E # in ohm\n",
+      "del_R= del_R*10**3 #in mohm\n",
+      "print \"The smallest change in resistance = %0.2f m ohm\" %del_R"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The smallest change in resistance = 0.12 m ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 33
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.12 - Page No : 167"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R=200 # in ohm\n",
+      "S=R \n",
+      "P=S \n",
+      "Q=P \n",
+      "r=2 # in ohm\n",
+      "E=24 # in volt\n",
+      "Power= 0.5 # in W\n",
+      "# Formula Power= I**2/R\n",
+      "I= sqrt(Power/R) # in A\n",
+      "print \"Maximum power dissipation = %0.2f A\" %I\n",
+      "V=I*2*R # in volt\n",
+      "# Formula E= V+2*I*(r+R)\n",
+      "R= (E-V)/(2*I)-r # in ohm\n",
+      "print \"Series resistance = %0.f ohm\" %R"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Maximum power dissipation = 0.05 A\n",
+        "Series resistance = 38 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 35
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.13 - Page No : 167"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "P=10000 # in ohm\n",
+      "Q=10 # in ohm\n",
+      "S=5 # in kohm\n",
+      "S=S*10**3 # in ohm\n",
+      "E=12 # in volt\n",
+      "R=P*S/Q # in ohm\n",
+      "print \"(i) : The maximum value of resistance that can be measurement with the given argument = %0.f Mohm\" %(R*10**-6)\n",
+      "R_Th= R*S/(R+S)+ P*Q/(P+Q) # in ohm\n",
+      "\n",
+      "# Part (ii)\n",
+      "theta= 2.5 # in mm\n",
+      "Rg=100 # in ohm\n",
+      "Si=100 # in mm/miuA\n",
+      "Si=Si*10**6 # in mm/amp\n",
+      "del_R= theta*(R_Th+Rg)*(R+S)**2/(Si*E*S) # in ohm\n",
+      "print \"(ii) : Change in resistance  = %0.2f kohm\" %(del_R*10**-3)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "(i) : The maximum value of resistance that can be measurement with the given argument = 5 Mohm\n",
+        "(ii) : Change in resistance  = 53.28 kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 38
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  6.14 - Page No : 171"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "p=200.62 # in ohm\n",
+      "q=400 # in ohm\n",
+      "P=200.48 # in ohm\n",
+      "Q=400 # in ohm\n",
+      "S=100.03 # in micro ohm\n",
+      "S=S*10**-6 # in ohm\n",
+      "r=700 # in micro ohm\n",
+      "r=r*10**-6 # in ohm\n",
+      "X= P*S/Q+q*r/(p+q)*(P/Q-p/q) # in ohm\n",
+      "print \"Unknown resistance = %0.4f micro ohm\" %(X*10**+6)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Unknown resistance = 49.9719 micro ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 41
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_07_1.ipynb b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_07_1.ipynb
new file mode 100755
index 00000000..6b65016a
--- /dev/null
+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_07_1.ipynb
@@ -0,0 +1,1327 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:9a66201b8d7233d025725f77699aa3bd8f73ea293b76d05e7eed8e99adada086"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter - 7 : Inductance and Capacitance Measurements"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.1 - Page No : 178"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Z1= 100 # in \u03a9\n",
+      "theta1= 30 # in \u00b0\n",
+      "Z2= 50 # in \u03a9\n",
+      "theta2= 0 # in \u00b0\n",
+      "Z3= 200 # in \u03a9\n",
+      "theta3= -90 # in \u00b0\n",
+      "Z4= 100 # in \u03a9\n",
+      "theta4= 30 # in \u00b0\n",
+      "if Z1*Z4 == Z2*Z3 :\n",
+      "    print \"The first condition is satisfied\"\n",
+      "if theta1+theta4 == theta2+theta3 :\n",
+      "    print \"The second condiiton is also satisfied, So it is possible to balance the bridge under the given condition\"\n",
+      "else:\n",
+      "    print \"The second condition is not satisfied.\"\n",
+      "    print \"So balance is not possible under given condition\"\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The first condition is satisfied\n",
+        "The second condition is not satisfied.\n",
+        "So balance is not possible under given condition\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.2 - Page No : 178"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Z1= 1000 # in \u03a9\n",
+      "theta1= -90 # in \u00b0\n",
+      "Z2= 500 # in \u03a9\n",
+      "theta2= 0 # in \u00b0\n",
+      "Z3= 1000 # in \u03a9\n",
+      "theta3= 0 # in \u00b0\n",
+      "R4= 100 # in \u03a9\n",
+      "XL4= 500 # in \u03a9\n",
+      "i_XL4= 500j # imaginary part\n",
+      "Z4=(R4+i_XL4) # in \u00b0\n",
+      "theta4= math.atan2(Z4.imag,Z4.real)*180/pi # in \u00b0\n",
+      "if theta1+theta4 ==  theta2+theta3 :\n",
+      "    print \"The first condiiton is satisfied.\"\n",
+      "else :\n",
+      "    print \"Balance is not possible with given configuration\"\n",
+      "\n",
+      "# 1/Z1=1/R1+j*omega*C1     (i)\n",
+      "# According to figure  1/Z1= R4/(Z2*Z3)+%i*XL4/(Z2*Z3)        (ii) \n",
+      "# Comparing real and j-components of Eqn (i) and (ii)\n",
+      "R1= Z2*Z3/R4 # in \u03a9\n",
+      "OmegaC1= Z2*Z3/XL4 # in \u03a9\n",
+      "print \"\\nSince X_C1 is already equal to \",int(OmegaC1),\" \u03a9, the bridge can be balanced simply by placing a \"\n",
+      "print \"resistance of \",int(R1),\" \u03a9 across the capacitor arm 1\"\n",
+      "# Z3= R3-j*X_C3        (iii)\n",
+      "    #Z3= Z1*expm(%i*theta1*pi/180)*Z4*expm(%i*theta4*pi/180)/(Z2*expm(%i*theta2*pi/180)) #       (iv)\n",
+      "# Comparing real and j-components of Eqn (iii) and (iv)\n",
+      "R3= 1000 # in \u03a9\n",
+      "XC3= 200 # in \u03a9\n",
+      "print \"\\nSince R3 is already of \",int(R3),\" \u03a9, the bridge can be balanced simply by adding a\"\n",
+      "print \"capacitor of reactance X_C3 of \",int(XC3),\" \u03a9 in series with the resistor R3 in arm 3.\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Balance is not possible with given configuration\n",
+        "\n",
+        "Since X_C1 is already equal to  1000  \u03a9, the bridge can be balanced simply by placing a \n",
+        "resistance of  5000  \u03a9 across the capacitor arm 1\n",
+        "\n",
+        "Since R3 is already of  1000  \u03a9, the bridge can be balanced simply by adding a\n",
+        "capacitor of reactance X_C3 of  200  \u03a9 in series with the resistor R3 in arm 3.\n"
+       ]
+      }
+     ],
+     "prompt_number": 47
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.3 - Page No : 180"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from __future__ import division\n",
+      "#Given data\n",
+      "C2= 0.2 # in micro F\n",
+      "Ratio21= 10/1 # resistance ratio R2/R1\n",
+      "C1= C2*Ratio21 # in micro F\n",
+      "Ratio21_desh= 1/10 \n",
+      "C1_desh= C2*Ratio21_desh # in micro F\n",
+      "print \"The range of measurement of unknown capacitance = \",round(C1_desh,2),\"\u00b5F to\",int(round(C1)),\"\u00b5F\""
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The range of measurement of unknown capacitance =  0.02 \u00b5F to 2 \u00b5F\n"
+       ]
+      }
+     ],
+     "prompt_number": 51
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.4 - Page No : 182"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from __future__ import division\n",
+      "from numpy import pi\n",
+      "#Given data\n",
+      "R2= 5 # in ohm\n",
+      "R3= 2000 # in ohm\n",
+      "R4= 2950 # in ohm\n",
+      "C2= 0.5 # in micro F\n",
+      "C2=C2*10**-6 # in F\n",
+      "r2=0.4 # in  ohm\n",
+      "f=450 # in Hz\n",
+      "omega= 2*pi*f \n",
+      "# Under Balace Condition Z1*Z4=Z2*Z3\n",
+      "# [r1+1/(j*omega*C1)]*R4= [r2+R2+1/(j*omega*C2)]*R3\n",
+      "# Equating the real parts we have, r1*R4= (r2+R2)*R3\n",
+      "r1= (r2+R2)*R3/R4 # in ohm\n",
+      "print \"Value of r1 = %0.3f ohm\" %r1\n",
+      "# Equating imaginary parts we have R4/(j*omega*C1)= R3/(j*omega*C2)\n",
+      "C1= R4/R3*C2 # in F\n",
+      "print \"Value of C1 = %0.4f micro F\" %(C1*10**6) \n",
+      "Tan_toh= omega*C1*r1 \n",
+      "print \"Dissipation Factor = %0.3e\" %Tan_toh"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of r1 = 3.661 ohm\n",
+        "Value of C1 = 0.7375 micro F\n",
+        "Dissipation Factor = 7.634e-03\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.5 - Page No : 183"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f=1000 #in Hz\n",
+      "R1=1000 #in ohm\n",
+      "R2=1000 # in ohm\n",
+      "R3=2000 #in ohm\n",
+      "R4=2000 #in ohm\n",
+      "C1=1*10**-6 #in F\n",
+      "r1= 10 # in ohm\n",
+      "omega=2*pi*f \n",
+      "C2=C1*R1/R2 #in F\n",
+      "print \"Unknown capacitance = %0.f \u00b5F \"%(C2*10**6) \n",
+      "\n",
+      "r2=(R2*(R3+r1)-R1*R4)/R1 #in ohm \n",
+      "del_1=omega*r1*C1 #in radian\n",
+      "del_1=del_1*180/pi # in \u00b0\n",
+      "print \"Phase angle error1 = %0.1f degree\" %del_1 \n",
+      "del_2=omega*r2*C2 #in radian\n",
+      "del_2=del_2*180/pi # in degree\n",
+      "print \"Phase angle error2 = %0.1f degree\" %del_2 "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Unknown capacitance = 1 \u00b5F \n",
+        "Phase angle error1 = 3.6 degree\n",
+        "Phase angle error2 = 3.6 degree\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.6 - Page No :183"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f=500 #in Hz\n",
+      "R2=4.8 #in ohm\n",
+      "R3=2*10**3 # in ohm\n",
+      "R4=2.85*10**3 #in ohm\n",
+      "C2=0.5*10**-6 #in F\n",
+      "r2= 0.4 # in ohm \n",
+      "omega=2*pi*f \n",
+      "C1=C2*R4/R3 #in F\n",
+      "print \"The value of unknown capacitance = %0.4f micro F\" %(C1*10**6) \n",
+      "r1=(R3*(R2+r2))/R4 #in ohm \n",
+      "print \"Resistance of unknown capacitance = %0.3f ohm\" %r1\n",
+      "Tan_del_1= omega*C1*r1 \n",
+      "print \"Dissipation factor = %0.5f\" %Tan_del_1"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of unknown capacitance = 0.7125 micro F\n",
+        "Resistance of unknown capacitance = 3.649 ohm\n",
+        "Dissipation factor = 0.00817\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.7 - Page No : 184"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f=50 #in Hz\n",
+      "R2=330*10**3 #in ohm\n",
+      "R3=15*10**3 # in ohm\n",
+      "R4=22*10**3 #in ohm\n",
+      "C2=0.12*10**-6 #in F\n",
+      "omega=2*pi*f \n",
+      "R1= R2*R3/R4 # in ohm\n",
+      "print \"Resistive component of unknown resistance = %0.f kohm\" %(R1*10**-3)\n",
+      "C1= C2*R4/R3 # in F\n",
+      "print \"Capacitive component of unknown capacitor = %0.3f micro F\" %(C1*10**6)\n",
+      "D=1/(omega*C1*R1) \n",
+      "print \"Dissipation factor = %0.2f\" %D"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistive component of unknown resistance = 225 kohm\n",
+        "Capacitive component of unknown capacitor = 0.176 micro F\n",
+        "Dissipation factor = 0.08\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example : 7.8 - Page No : 191"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f=50 #in Hz\n",
+      "R4=309 #in ohm\n",
+      "R2=100 # in ohm\n",
+      "C3=109*10**-12 #in F\n",
+      "C4=0.5*10**-6 #in F\n",
+      "omega=2*pi*f \n",
+      "Cx= C3*R4/R2 # in F\n",
+      "print \"Equivalent series capacitance = %0.2f \u00b5\u00b5F\"  %(Cx*10**12)\n",
+      "Rx= C4*R2/C3 # in ohm\n",
+      "# Power factor of the specimen\n",
+      "Tan_delta= omega*Cx*Rx \n",
+      "print \"Power factor of the specimen = %0.4f\" %Tan_delta"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Equivalent series capacitance = 336.81 \u00b5\u00b5F\n",
+        "Power factor of the specimen = 0.0485\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.9 - Page No : 192"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from math import cos, tan \n",
+      "from numpy import pi\n",
+      "#Given data\n",
+      "f=50 #in Hz\n",
+      "R4=1000 #in ohm\n",
+      "C3=50*10**-12 #in F\n",
+      "delta=9 # in \u00b0\n",
+      "epsilon_r= 2.3 \n",
+      "epsilon_0= 8.854*10**-12 \n",
+      "d= 0.3*10**-2 # in meter\n",
+      "A=314 # area of each electrode in square cm\n",
+      "A=A*10**-4 # in square meter\n",
+      "omega=2*pi*f \n",
+      "C1= epsilon_r*epsilon_0*A/d # in F\n",
+      "# Formula tan (delta)= 1/(omega*C1*R1)\n",
+      "R1= 1/(omega*C1*tan(delta*pi/180)) # in ohm\n",
+      "C4= 1/(omega**2*C1*R1*R4) # in F\n",
+      "print \"Variable capacitor = %0.1f micro F\" %(C4*10**6)\n",
+      "R2= C3*R4*(cos(delta*pi/180))**2/C1 # in ohm\n",
+      "print \"Variable resistance = %0.f ohm\" %R2\n",
+      "\n",
+      "# Note: Calculation of R2 in the book is wrong"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Variable capacitor = 0.5 micro F\n",
+        "Variable resistance = 229 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 21
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.10 - Page No : 192"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f=25 #in kHz\n",
+      "f=f*10**3 # in Hz\n",
+      "R1=3.1*10**3 #in ohm\n",
+      "R2=25*10**3 #in ohm\n",
+      "R4=100*10**3 #in ohm\n",
+      "C1=5.2*10**-6 #in F\n",
+      "omega= 2*pi*f \n",
+      "# From C3/C1= R2/R4-R1/R3\n",
+      "# C3= C1*(R2/R4-R1/R3)         (i)\n",
+      "# and omega= 1/sqrt(R1*R3*C1*C3)\n",
+      "# R3= 1/(omega**2*R1*C1*C3), putting this value in (i)\n",
+      "C3= C1*R2/(R4*(1+R1**2*C1**2*omega**2)) # in F\n",
+      "print \"Equivalent capacitance = %0.3f \u00b5\u00b5F\" %(C3*10**12)\n",
+      "R3= 1/(omega**2*R1*C1*C3) # in ohm\n",
+      "print \"Equivalent parallel resistance = %0.1f kohm\" %(R3*10**-3)\n",
+      "\n",
+      "\n",
+      "# Note Evaluating the value of C3 in the book is wrong."
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Equivalent capacitance = 0.203 \u00b5\u00b5F\n",
+        "Equivalent parallel resistance = 12.4 kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 22
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.11 - Page No :193"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R2= 5 # in ohm\n",
+      "R3= 2000 # in ohm\n",
+      "R4= 2950 # in ohm\n",
+      "C2= 0.5 # in miu F\n",
+      "C2=C2*10**-6 # in F\n",
+      "r2=0.4 # in  ohm\n",
+      "f=450 # in Hz\n",
+      "omega= 2*pi*f \n",
+      "# Under Balace Condition Z1*Z4=Z2*Z3\n",
+      "# [r1+1/(j*omega*C1)]*R4= [r2+R2+1/(j*omega*C2)]*R3\n",
+      "# Equating the real parts we have, r1*R4= (r2+R2)*R3\n",
+      "r1= (r2+R2)*R3/R4 # in ohm\n",
+      "print \"Value of r1 = %0.3f ohm\" %r1\n",
+      "# Equating imaginary parts we have R4/(j*omega*C1)= R3/(j*omega*C2)\n",
+      "C1= R4/R3*C2 # in F\n",
+      "print \"Value of C1 = %0.4f micro F\" %(C1*10**6) \n",
+      "Tan_toh= omega*C1*r1 \n",
+      "print \"Dissipation Factor = %0.3e\" %Tan_toh"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of r1 = 3.661 ohm\n",
+        "Value of C1 = 0.7375 micro F\n",
+        "Dissipation Factor = 7.634e-03\n"
+       ]
+      }
+     ],
+     "prompt_number": 23
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.12 - Page No : 195"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "L1= 52.6 # in mH\n",
+      "r1= 28.5 # in ohm\n",
+      "R2= 1.68 # in ohm\n",
+      "R3= 80 # resistance in ohm\n",
+      "R4= 80 # resistance in ohm\n",
+      "r2= r1*R3/R4-R2 # in ohm\n",
+      "print \"Resistance of coil = %0.2f ohm\" %r2\n",
+      "L2=L1*R3/R4 # in mH\n",
+      "print \"Inductance of coil = %0.1f mH\" %L2 "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance of coil = 26.82 ohm\n",
+        "Inductance of coil = 52.6 mH\n"
+       ]
+      }
+     ],
+     "prompt_number": 24
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.13 - Page No : 195"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "L= 47.8 # in mH\n",
+      "R= 1.36 # in ohm\n",
+      "R2= 100 # in ohm\n",
+      "R3= 32.7 #in ohm\n",
+      "R4= 100 #in ohm\n",
+      "R1= R2*R3/R4-R # in ohm\n",
+      "print \"Resistance of coil = %0.2f ohm\" %R1\n",
+      "L1= R2/R4*L # in mH\n",
+      "print \"Inductance of coil = %0.1f mH\" %L1 "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance of coil = 31.34 ohm\n",
+        "Inductance of coil = 47.8 mH\n"
+       ]
+      }
+     ],
+     "prompt_number": 25
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.14 - Page No : 198"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R2= 1000 # in ohm\n",
+      "R3= 1000 #in ohm\n",
+      "R4= 1000 #in ohm\n",
+      "C4= 0.5 # in miu F\n",
+      "C4= C4*10**-6 # in F\n",
+      "R1= R2*R3/R4 # in ohm\n",
+      "print \"Resistance of inductor = %0.f ohm\" %R1\n",
+      "L1= C4*R2*R3 # in H\n",
+      "print \"Inductance of inductor = %0.1f H\" %L1 "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance of inductor = 1000 ohm\n",
+        "Inductance of inductor = 0.5 H\n"
+       ]
+      }
+     ],
+     "prompt_number": 28
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.15 - Page No : 200"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "r= 469 # in ohm\n",
+      "R2= 1000 # in ohm\n",
+      "R3= 218 #in ohm\n",
+      "R4= 1000 #in ohm\n",
+      "C= 10 # in miu F\n",
+      "C= C*10**-6 # in F\n",
+      "R1= R2*R3/R4 # in ohm\n",
+      "print \"Resistance of inductor = %0.f ohm\" %R1\n",
+      "L1= C*R2/R4*(r*(R3+R4)+R3*R4) # in H\n",
+      "print \"Inductance of inductor = %0.3f H\" %L1\n",
+      " "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance of inductor = 218 ohm\n",
+        "Inductance of inductor = 7.892 H\n"
+       ]
+      }
+     ],
+     "prompt_number": 29
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.16 - Page No : 200"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "r= 500 # in ohm\n",
+      "R2= 400 # in ohm\n",
+      "R3= 400 #in ohm\n",
+      "R4= 400 #in ohm\n",
+      "C= 2 # in miu F\n",
+      "C= C*10**-6 # in F\n",
+      "R= R2*R3/R4 # in ohm\n",
+      "print \"Resistance of AB = %0.f ohm\" %R\n",
+      "L= C*R2/R4*(r*(R3+R4)+R3*R4) # in H\n",
+      "print \"Inductance of AB = %0.2f H\" %L"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance of AB = 400 ohm\n",
+        "Inductance of AB = 1.12 H\n"
+       ]
+      }
+     ],
+     "prompt_number": 30
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.17 - Page No : 200"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "r= 100 # in ohm\n",
+      "R2= 1000 # in ohm\n",
+      "R3= 500 #in ohm\n",
+      "R4= 1000 #in ohm\n",
+      "C= 3 # in micro F\n",
+      "C= C*10**-6 # in F\n",
+      "Rx= R2*R3/R4 # in ohm\n",
+      "print \"Value of Rx = %0.f ohm\" %Rx\n",
+      "Lx= C*R2/R4*(r*(R3+R4)+R3*R4) # in H\n",
+      "print \"Value of Lx = %0.2f H\" %Lx "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of Rx = 500 ohm\n",
+        "Value of Lx = 1.95 H\n"
+       ]
+      }
+     ],
+     "prompt_number": 32
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.18 - Page No : 203"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R2= 1000 # in ohm\n",
+      "R3= 16800 #in ohm\n",
+      "R4= 833 #in ohm\n",
+      "C4= 0.38 # in miu F\n",
+      "C4= C4*10**-6 # in F\n",
+      "f= 50 # in Hz\n",
+      "omega=2*pi*f \n",
+      "L1= R2*R3*C4/(1+(omega*C4*R4)**2) # in H\n",
+      "print \"Unknown inductance = %0.2f H\" %L1 \n",
+      "R1= R2*R3*R4*omega**2*C4**2/(1+(omega*C4*R4)**2) # in ohm\n",
+      "print \"Unknown resistance = %0.2f ohm\" %R1"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Unknown inductance = 6.32 H\n",
+        "Unknown resistance = 197.49 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 33
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.19 - Page No : 203"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R1= 500 #in ohm\n",
+      "R2= 1000 # in ohm\n",
+      "R3= R2 #in ohm\n",
+      "L1= 0.18 # in H\n",
+      "f= 5000/(2*pi) # in Hz\n",
+      "omega= 2*pi*f \n",
+      "# L1= R2*R3*C4/(1+(omega*C4*R4)**2)     (i)  \n",
+      "# and  R1= R2*R3*R4*omega**2*C4**2/(1+(omega*C4*R4)**2) or R1= omega**2*R4*C4*L1\n",
+      "R4C4= R1/(omega**2*L1) \n",
+      "# From eq (i)\n",
+      "C4= L1*(1+(omega*R4C4)**2)/(R2*R3) # in F\n",
+      "print \"The value of C = %0.4f micro F\" %(C4*10**6) \n",
+      "R4= R4C4/C4 # in ohm\n",
+      "print \"The value of R4 = %0.f ohm\" %R4"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of C = 0.2356 micro F\n",
+        "The value of R4 = 472 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 35
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.20 - Page No : 204"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R2= 1000 #in ohm\n",
+      "R3= 10000 # in ohm\n",
+      "R4= 2000 #in ohm\n",
+      "C4= 1*10**-6 # in F\n",
+      "omega= 3000 # radians/sec\n",
+      "L1= R2*R3*C4/(1+(omega*C4*R4)**2) # in H\n",
+      "print \"Equivalent inductance of the network = %0.2f H\" %L1\n",
+      "R1= R2*R3*R4*omega**2*C4**2/(1+(omega*C4*R4)**2) # in ohm\n",
+      "print \"Equivalent resistance of the network = %0.3f kohm\" %(R1*10**-3)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Equivalent inductance of the network = 0.27 H\n",
+        "Equivalent resistance of the network = 4.865 kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 37
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.21 - Page No : 204"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R2= 2410 #in ohm\n",
+      "R3= 750 # in ohm\n",
+      "R4= 64.5 #in ohm\n",
+      "C4= 0.35*10**-6 # in F\n",
+      "r4= 0.4 # series resistance of capacitor in ohm\n",
+      "f=500 #/ in Hz\n",
+      "omega= 2*pi*f # radians/sec\n",
+      "R4= R4+r4 # in ohm\n",
+      "R1= R2*R3*R4*omega**2*C4**2/(1+(omega*C4*R4)**2) # in ohm\n",
+      "print \"Resistance of the choke coil = %0.2f ohm\" %R1\n",
+      "L1= R2*R3*C4/(1+(omega*C4*R4)**2) # in H\n",
+      "print \"Inductance of the choke coil = %0.4f H\" %L1\n",
+      "\n",
+      "# Note: Calculation of finding the value of L1 in the book is wrong"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance of the choke coil = 141.11 ohm\n",
+        "Inductance of the choke coil = 0.6294 H\n"
+       ]
+      }
+     ],
+     "prompt_number": 38
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.22 - Page No :205"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from math import atan2 \n",
+      "#Given data\n",
+      "R2= 834 # in \u03a9\n",
+      "R3= 100 # in \u03a9\n",
+      "C2= 0.124 # in \u00b5F\n",
+      "C2= C2*10**-6 # in F\n",
+      "C4= 0.1 # in \u00b5F\n",
+      "C4= C4*10**-6 # in F\n",
+      "L1= R2*R3*C4 # in H\n",
+      "f= 2 # in kHz\n",
+      "f= f*10**3 # in kHz\n",
+      "print \"The value of L1 = %0.2f mH\" %(L1*10**3)\n",
+      "R1= R3*C4/C2 # in \u03a9\n",
+      "print \"The value of R1 = %0.2f \u03a9\" %R1\n",
+      "pi_2_f_L1= 2*pi*f*L1 # value of 2*pi*f*L1\n",
+      "i= 1j # complex number\n",
+      "i_XL= i*pi_2_f_L1 #imaginary part\n",
+      "Z= R1+i_XL # impedance in ohm\n",
+      "print \"The magnitude of effective impedence = %0.2f \u03a9\" %abs(Z)\n",
+      "theta= atan2(Z.imag,Z.real)*180/pi\n",
+      "print \"The angle of effective impedence = %0.2f\u00b0\" %theta"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of L1 = 8.34 mH\n",
+        "The value of R1 = 80.65 \u03a9\n",
+        "The magnitude of effective impedence = 132.24 \u03a9\n",
+        "The angle of effective impedence = 52.42\u00b0\n"
+       ]
+      }
+     ],
+     "prompt_number": 50
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.23 - Page No : 211"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "fr= 2 # in MHz\n",
+      "fr=fr*10**6 # in Hz\n",
+      "C=230+8 # in pF\n",
+      "C=C*10**-12 # in F\n",
+      "# Formula fr= 1/(2*pi*sqrt(L*C))\n",
+      "L= 1/((2*pi*fr)**2*C) # in H\n",
+      "print \"Value of L = %0.1f \u00b5H\" %(L*10**6)\n",
+      "# From the first set of data\n",
+      "fr= 1 # in MHz\n",
+      "fr=fr*10**6 # in Hz\\\n",
+      "C= 1/((2*pi*fr)**2*L) # in F\n",
+      "print \"Value of C = %0.f pF\" %(C*10**12)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of L = 26.6 \u00b5H\n",
+        "Value of C = 952 pF\n"
+       ]
+      }
+     ],
+     "prompt_number": 51
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.24 - Page No : 212"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "C1= 208 # in pF\n",
+      "C1=C1*10**-12 # in F\n",
+      "Q1= 80 \n",
+      "C2= 184 # in pF\n",
+      "C2=C2*10**-12 # in F\n",
+      "Q2= 50 \n",
+      "f=165 # in kHz\n",
+      "f=f*10**3 # in Hz\n",
+      "omega= 2*pi*f # in radians/sec\n",
+      "# Part (i)\n",
+      "Rm= 1/omega*(1/(C2*Q2)-1/(C1*Q1)) # in ohm\n",
+      "print \"Resistive component of unknown impedence = %0.2f ohm\" %Rm\n",
+      "# Part(ii)\n",
+      "Xm= 1/omega*(1/C2-1/C1) # in ohm\n",
+      "print \"Reactive component of unknown impedence = %0.f ohm\" %Xm"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistive component of unknown impedence = 46.88 ohm\n",
+        "Reactive component of unknown impedence = 605 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 52
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.25 - Page No : 212"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "C1= 160*10**-12 # in F\n",
+      "C2= 36*10**-12 # in F\n",
+      "f1=250 # in kHz\n",
+      "f1=f1*10**3 # in Hz\n",
+      "f2=500 # in kHz\n",
+      "f2=f2*10**3 # in Hz\n",
+      "Cd= (C1-4*C2)/3 # in F\n",
+      "print \"Self Capacitance of the coil = %0.2f \u00b5\u00b5F\" %(Cd*10**12)\n",
+      "# Formula f1= 1/(2*pi*sqrt(L*(C1+Cd)))\n",
+      "L= 1/((2*pi*f1)**2*(C1+Cd)) # in H\n",
+      "print \"Self inductance of the coil = %0.f \u00b5H\" %(L*10**6) "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Self Capacitance of the coil = 5.33 \u00b5\u00b5F\n",
+        "Self inductance of the coil = 2451 \u00b5H\n"
+       ]
+      }
+     ],
+     "prompt_number": 53
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.26 - Page No : 213"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "C1= 251*10**-12 # in F\n",
+      "C2= 50*10**-12 # in F\n",
+      "f1=3 # in MHz\n",
+      "f1=f1*10**6 # in Hz\n",
+      "f2=6 # in MHz\n",
+      "f2=f2*10**6 # in Hz\n",
+      "Cd= (C1-4*C2)/3 # in F\n",
+      "print \"Self Capacitance of the coil = %0.f pF\" %(Cd*10**12)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Self Capacitance of the coil = 17 pF\n"
+       ]
+      }
+     ],
+     "prompt_number": 54
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.27 - Page No : 213"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "C1= 1530 # in pF\n",
+      "C2= 162 # in pF\n",
+      "f1=1 # in MHz\n",
+      "f1=f1*10**6 # in Hz\n",
+      "f2=3 # in MHz\n",
+      "f2=f2*10**6 # in Hz\n",
+      "# f1= 1/(2*pi*sqrt(L*(C1+Cd)))\n",
+      "#  f1= 1/(2*pi*sqrt(L*(C2+Cd))) and f2= 3*f1 so\n",
+      "Cd= (C1-9*C2)/8 # in pF\n",
+      "print \"Self capacitance of the coil = %0.f pF\" %Cd"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Self capacitance of the coil = 9 pF\n"
+       ]
+      }
+     ],
+     "prompt_number": 55
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.28 - Page No : 213"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f= 450 # in kHz\n",
+      "f=f*10**3 # in Hz\n",
+      "C=250 # in pF\n",
+      "C=C*10**-12 # in F\n",
+      "Rsh= 0.75 # in ohm\n",
+      "Q= 105 \n",
+      "omega= 2*pi*f # in radians/sec\n",
+      "# Formula f= 1/(2*pi*sqrt(L*C))\n",
+      "L= 1/((2*pi*f)**2*C) # in H\n",
+      "print \"Inductance of the coil = %0.f \u00b5H\" %(L*10**6)\n",
+      "R= omega*L/Q-Rsh # in ohm\n",
+      "print \"Resistance of the coil = %0.2f ohm\" %R"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Inductance of the coil = 500 \u00b5H\n",
+        "Resistance of the coil = 12.72 ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 56
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.29 - Page No : 213"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f= 500 # in kHz\n",
+      "f=f*10**3 # in Hz\n",
+      "C=120 # in pF\n",
+      "C=C*10**-12 # in F\n",
+      "R= 5 # in ohm\n",
+      "r=0.02 # resistance used across the oscillatory circuit in ohm\n",
+      "omega= 2*pi*f # in radians/sec\n",
+      "Q_True= 1/(omega*C*R) \n",
+      "Q_indicated= 1/(omega*C*(R+r)) \n",
+      "PerError= (Q_True-Q_indicated)*100/Q_True # in %\n",
+      "print \"Percentage Error = %0.1f %%\" %PerError"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Percentage Error = 0.4 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 57
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.30 - Page No : 214"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f1= 800 # in kHz\n",
+      "f1=f1*10**3 # in Hz\n",
+      "f2= 2.5 # in MHz\n",
+      "f2=f2*10**6 # in Hz\n",
+      "C1=95 # in pF\n",
+      "C1=C1*10**-12 # in F\n",
+      "# L= 1/(omega1**2*(C1+Cd))        (i)\n",
+      "# L= 1/(omega2**2*Cd)                (ii)\n",
+      "# From eq(i) and eq(ii)\n",
+      "Cd= f1**2*C1/(f2**2-f1**2) # in F\n",
+      "print \"Self capacitance of the radio coil = %0.2f pF\" %(Cd*10**12) "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Self capacitance of the radio coil = 10.84 pF\n"
+       ]
+      }
+     ],
+     "prompt_number": 58
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  7.31 - Page No : 214"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f1= 1 # in MHz\n",
+      "f1=f1*10**6 # in Hz\n",
+      "f2= 2 # in MHz\n",
+      "f2=f2*10**6 # in Hz\n",
+      "C1=480 # in pF\n",
+      "C1=C1*10**-12 # in F\n",
+      "C2=90 # in pF\n",
+      "C2=C2*10**-12 # in F\n",
+      "R=10 # in ohm\n",
+      "omega1= 2*pi*f1 # in radians/sec\n",
+      "omega2= 2*pi*f2 # in radians/sec\n",
+      "\n",
+      "# Part (i)\n",
+      "Cd= (C1-4*C2)/3 # in F\n",
+      "print \"(i)  : Self capacitance of the coil = %0.f pF\" %(Cd*10**12)\n",
+      "\n",
+      "# Part(ii)\n",
+      "Q_indicated1= 1/(omega1*(C1+Cd)*R) \n",
+      "print \"(ii) : Indicated or effective Q for first measurement = %0.3f\" %Q_indicated1\n",
+      "Q_True1=  1/(omega1*C1*R) \n",
+      "print \"True Q for first measurement = %0.3f \" %Q_True1\n",
+      "Q_indicated2= 1/(omega2*(C2+Cd)*R) \n",
+      "print \"Indicated or effective Q for second measurement = %0.3f\" %Q_indicated2\n",
+      "Q_True2=  1/(omega2*C2*R) \n",
+      "print \"True Q for second measurement = %0.2f\" %Q_True2 "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "(i)  : Self capacitance of the coil = 40 pF\n",
+        "(ii) : Indicated or effective Q for first measurement = 30.607\n",
+        "True Q for first measurement = 33.157 \n",
+        "Indicated or effective Q for second measurement = 61.213\n",
+        "True Q for second measurement = 88.42\n"
+       ]
+      }
+     ],
+     "prompt_number": 60
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_08_1.ipynb b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_08_1.ipynb
new file mode 100755
index 00000000..863a69a3
--- /dev/null
+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_08_1.ipynb
@@ -0,0 +1,659 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:012ab8557afdcfdae2cdc3da17271647415fc17ab95dd187f4df0903472edf45"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter - 8 : Cathode Ray Oscilloscopes"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.1 - Page No : 231"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from math import sqrt\n",
+      "from __future__ import division\n",
+      "#Given data\n",
+      "l=25 # in mm\n",
+      "l=l*10**-3 # in meter\n",
+      "d=5 # in mm\n",
+      "d=d*10**-3 # in meter\n",
+      "S= 20 # in cm\n",
+      "S= S*10**-2 # in meter\n",
+      "Va= 3000 # in volts\n",
+      "TraceLength= 10 # in cm\n",
+      "TraceLength=TraceLength*10**-2 # in meter\n",
+      "y=TraceLength/2 \n",
+      "Vd= 2*d*Va*y/(l*S) # in volts\n",
+      "Vrms= Vd/sqrt(2) # in volts\n",
+      "Vrms= int(Vrms) \n",
+      "print \"RMS value of the sinusoidal voltage applied to the X-deflecting plates = %0.f volts\" %Vrms  \n",
+      "DeflectionSensitivity= l*S/(2*d*Va) # in m/V\n",
+      "print \"Deflection Sensitivity = %0.3f mm/V\" %(DeflectionSensitivity*10**3) "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "RMS value of the sinusoidal voltage applied to the X-deflecting plates = 212 volts\n",
+        "Deflection Sensitivity = 0.167 mm/V\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.2 - Page No : 231"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from math import sqrt\n",
+      "#Given data\n",
+      "Va= 1000 # in volts\n",
+      "e= 1.6*10**-19 # in C\n",
+      "m= 9.1*10**-31 # in kg\n",
+      "MaxVel= sqrt(2*Va*e/m) # maximum velocity of electrons in m/s\n",
+      "print \"Maximum velocity of electrons = %0.3e m/s\" %MaxVel"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Maximum velocity of electrons = 1.875e+07 m/s\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.3 - Page No : 232"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "l=20 # in mm\n",
+      "l=l*10**-3 # in meter\n",
+      "d=5 # in mm\n",
+      "d=d*10**-3 # in meter\n",
+      "S= 0.20 # in meter\n",
+      "Va= 2500 # in volts\n",
+      "DeflectionSensitivity= l*S/(2*d*Va) # in m/V\n",
+      "print \"Deflection Sensitivity = %0.2f mm/V\" %(DeflectionSensitivity*10**3) "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Deflection Sensitivity = 0.16 mm/V\n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.4 - Page No : 232"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from math import tan, pi\n",
+      "#Given data\n",
+      "l=2.5 # in cm\n",
+      "l=l*10**-2 # in meter\n",
+      "d=1 # in cm\n",
+      "d=d*10**-2 # in meter\n",
+      "Va= 1000 # in volts\n",
+      "theta= 1 # in degree\n",
+      "# Formula tand(theta) = l*Vd/(2*d*Va)\n",
+      "Vd= 2*d*Va/l*tan(theta*pi/180) # in volts\n",
+      "print \"Voltage required across the deflection plates = %0.2f volts\" %Vd"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage required across the deflection plates = 13.96 volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.5 - Page No : 232"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "l=2.5 # in cm\n",
+      "l=l*10**-2 # in meter\n",
+      "d=.5 # in cm\n",
+      "d=d*10**-2 # in meter\n",
+      "S= 20 # in cm\n",
+      "S= S*10**-2 # in meter\n",
+      "Va= 2500 # in volts\n",
+      "# Formula y = OC*AB/OB = (S*d/2)/(l/2)\n",
+      "y = (S*d/2)/(l/2) # in meter\n",
+      "print \"The value of deflection = %0.f cm\" %(y*10**2)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of deflection = 4 cm\n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.6 - Page No : 244"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "R_E1= 5.6 # in kohm\n",
+      "C1= 0.2 # in micro F\n",
+      "V_B1= 6.3 # in volt\n",
+      "V_BE= 0.7 # in volt\n",
+      "TL= 2.5 # trigger level for the Schmitt trigger (UTP,LTP) in volt\n",
+      "del_V1= 2*TL # in volt\n",
+      "I_C1= (V_B1-V_BE)/R_E1 # in mA\n",
+      "print \"Charging current = %0.f mA\" %I_C1 \n",
+      "toh= del_V1*C1/I_C1 # in ms\n",
+      "print \"Time period = %0.f ms\" %toh"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Charging current = 1 mA\n",
+        "Time period = 1 ms\n"
+       ]
+      }
+     ],
+     "prompt_number": 11
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.7 - Page No : 255"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "L=10 # trace length in cm\n",
+      "DS= 5 # deflection sensitivity in V/cm\n",
+      "V_peakTOpeak= L*DS # in volt\n",
+      "V_peak= V_peakTOpeak/2 # in volt\n",
+      "RMS= V_peak/sqrt(2) # RMS value of unknown as voltage in volt\n",
+      "print \"The value of AC voltage = %0.3f volts\" %RMS "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of AC voltage = 17.678 volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.8 - Page No : 255"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from fractions import Fraction \n",
+      "#Given data\n",
+      "Y= 3 # Positive Y-peaks in pattern\n",
+      "X= 2 # Positive X-peaks in pattern\n",
+      "# Ratio of frequencies of vertical and horizontal signals\n",
+      "# f_y/f_x= omega_y/omega_x = Y/X\n",
+      "R= Y/X #Ratio of frequencies \n",
+      "print \"Ratio of frequencies of vertical and horizontal signals = \",Fraction(R).limit_denominator(10) "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Ratio of frequencies of vertical and horizontal signals =  3/2\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.9 - Page No : 255"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Y= 2+1/2 # Positive Y-peaks in pattern\n",
+      "X= 1/2+1/2 # Positive X-peaks in pattern\n",
+      "f_h= 3# frequency of horizontal voltage signal in kHz\n",
+      "f_yBYf_x= Y/X \n",
+      "# frequency of vertical voltage signal= f_yBYf_x * f_h\n",
+      "f_v= f_yBYf_x * f_h # frequency of vertical voltage signal in kHz\n",
+      "print \"frequency of vertical voltage signal = %0.1f kHz\" %f_v "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "frequency of vertical voltage signal = 7.5 kHz\n"
+       ]
+      }
+     ],
+     "prompt_number": 16
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.10 - Page No : 256"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f_x= 1000 # in Hz\n",
+      "Y= 2 # points of tangency to vertical line\n",
+      "X= 5 # points of tangency to horizontal line\n",
+      "f_y= f_x*X/Y # in Hz\n",
+      "print \"Frequency of vertical input = %0.f Hz\" %f_y"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Frequency of vertical input = 2500 Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 17
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.11 - Page No : 256"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from fractions import Fraction \n",
+      "#Given data\n",
+      "# Taking 1div= 1 cm for CRO wave displays\n",
+      "Mark= 0.4 # cm\n",
+      "Space= 1.6 # cm\n",
+      "SAC= 0.2 # signal amplitude control in V/div\n",
+      "TBS= 10 # time base control in micro/div\n",
+      "Amplitude= 2.15 # in cm\n",
+      "M_S_ratio= Mark/Space # Mark to Space raio \n",
+      "print \"Mark to Space ratio = \",Fraction(M_S_ratio).limit_denominator(20) \n",
+      "T= (Mark+Space)*TBS # in micro sec\n",
+      "T=T*10**-6 # in sec\n",
+      "f=1/T # in Hz\n",
+      "print \"Pulse frequency = %0.f kHz\" %(f*10**-3)\n",
+      "Mag= Amplitude*SAC # Magnitude of pulse voltage in volt\n",
+      "print \"Magnitude of pulse voltage = %0.2f volts\" %Mag"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Mark to Space ratio =  1/4\n",
+        "Pulse frequency = 50 kHz\n",
+        "Magnitude of pulse voltage = 0.43 volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 18
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.12 - Page No : 256"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "from math import asin\n",
+      "from __future__ import division\n",
+      "#Given data\n",
+      "# Part (a)\n",
+      "d_v0= 0 \n",
+      "Dv=6 \n",
+      "fie= asin(d_v0/Dv) \n",
+      "print \"Phase angle of first figure = %0.f degree\" %fie\n",
+      "# Part (b)\n",
+      "d_v0= 3 \n",
+      "Dv=6 \n",
+      "fie= asin(d_v0/Dv)*180/pi \n",
+      "print \"Phase angle of second figure = %0.f degree\" %fie,\"or %0.f\" %(180-fie)\n",
+      "# Part (c)\n",
+      "d_v0= 5 \n",
+      "Dv=5 \n",
+      "fie= asin(d_v0/Dv)*180/pi\n",
+      "print \"Phase angle of third figure = %0.f degree\" %fie\n",
+      "# Part (d)\n",
+      "d_v0= 3 \n",
+      "Dv=5 \n",
+      "fie= asin(d_v0/Dv)*180/pi\n",
+      "# since ellipse is in 2nd and fourth quartes so the valid value of phase angle \n",
+      "fie= 180-fie\n",
+      "print \"Phase angle of fourth figure = %0.1f degree\" %fie,\"or %0.1f\" %(180-fie)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Phase angle of first figure = 0 degree\n",
+        "Phase angle of second figure = 30 degree or 150\n",
+        "Phase angle of third figure = 90 degree\n",
+        "Phase angle of fourth figure = 143.1 degree or 36.9\n"
+       ]
+      }
+     ],
+     "prompt_number": 30
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.13 - Page No : 257"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f=2000 # in Hz\n",
+      "T=1/f # in sec\n",
+      "D=0.2 \n",
+      "PulseDuration= D*T # in sec\n",
+      "print \"The value of pulse duration = %0.1f ms\" %(PulseDuration*10**3) "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The value of pulse duration = 0.1 ms\n"
+       ]
+      }
+     ],
+     "prompt_number": 31
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.14 - Page No : 258"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "vertical_attenuation= 0.5 # in V/Div\n",
+      "TPD= 2 # time/Div control in micro sec\n",
+      "P= 4*vertical_attenuation # peak-to-peak amplitude of the signal in V \n",
+      "print \"Peak-to-Peak amplitude of the signal = %0.f V\" %P\n",
+      "T= 4*TPD # in micro sec\n",
+      "T=T*10**-6 # in sec\n",
+      "f=1/T # in Hz\n",
+      "print \"The value of frequency = %0.f kHz\" %(f*10**-3)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Peak-to-Peak amplitude of the signal = 2 V\n",
+        "The value of frequency = 125 kHz\n"
+       ]
+      }
+     ],
+     "prompt_number": 32
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.15 - Page No : 261"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "C_1N= 36 # in pF\n",
+      "C_2= 150 # in pF\n",
+      "R_1N= 1 # in M ohm\n",
+      "R_1= 10 # in M ohm\n",
+      "# R_1/(omega*(C_2+C_1N)) = R_1N/(omega*C_1)\n",
+      "C_1= R_1N*(C_2+C_1N)/R_1 # in pF\n",
+      "print \"Value of C_1 = %0.1f pF\" %C_1\n",
+      "C_T= 1/(1/C_1+1/(C_2+C_1N)) # in pF\n",
+      "print \"Value of C_T = %0.2f pF\" %C_T"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of C_1 = 18.6 pF\n",
+        "Value of C_T = 16.91 pF\n"
+       ]
+      }
+     ],
+     "prompt_number": 33
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.16 - Page No : 261"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "C_1N= 36 # in pF\n",
+      "C_2= 150 # in pF\n",
+      "R_1N= 1 # in M ohm\n",
+      "R_1= 10 # in M ohm\n",
+      "R_source= 500 # in ohm\n",
+      "# R_1/(omega*(C_2+C_1N)) = R_1N/(omega*C_1)\n",
+      "C_1= R_1N*(C_2+C_1N)/R_1 # in pF\n",
+      "C_T= 1/(1/C_1+1/(C_2+C_1N)) # in pF\n",
+      "C_T= C_T*10**-12 # in F\n",
+      "f= 1/(2*pi*C_T*R_source) \n",
+      "print \"Signal Frequency = %0.2f MHz\" %(f*10**-6)"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Signal Frequency = 18.82 MHz\n"
+       ]
+      }
+     ],
+     "prompt_number": 34
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  8.17 - Page No : 263"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "f= 20 # in MHz\n",
+      "f=f*10**6 # in Hz\n",
+      "toh= 1/f # in sec\n",
+      "toh=toh*10**9 # in ns\n",
+      "# For one cycle occupying 4 horizontal divisions,\n",
+      "MTD= toh/4 # Minimum time/division in ns/division\n",
+      "# Using the 10 times magnifier to provide MTD\n",
+      "MTD_setting= 10*MTD # minimum time/division setting in ns/division\n",
+      "print \"Minimum time/division setting = %0.f ns/division\" %MTD_setting"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Minimum time/division setting = 125 ns/division\n"
+       ]
+      }
+     ],
+     "prompt_number": 35
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_10_1.ipynb b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_10_1.ipynb
new file mode 100755
index 00000000..ee2c5bbc
--- /dev/null
+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/Chapter_10_1.ipynb
@@ -0,0 +1,114 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:e3beb8b0630c35bb63d0b674a53a03c2bc95fc955abe45777c3c8a090f6bed5e"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter - 10 : Instrument Calibration and Recorders"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  10.1 - Page No : 284\n",
+      " "
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "#Given data\n",
+      "FullScale= 25 # in volt\n",
+      "\n",
+      "VR= 5 # voltmeter reading in volt\n",
+      "Error= -0.25 # in volt\n",
+      "Error_Reading= Error/VR*100 # % of reading\n",
+      "print \"Error percentage of reading    = %0.f %% of reading\" %Error_Reading \n",
+      "Error_FullScale= Error/FullScale*100 # % of full scale\n",
+      "print \"Error percentage of full scale = %0.f %% of full-scale\" %Error_FullScale\n",
+      "\n",
+      "VR= 10 # voltmeter reading in volt\n",
+      "Error= 0.25 # in volt\n",
+      "Error_Reading= Error/VR*100 # % of reading\n",
+      "print \"Error percentage of reading    = %0.1f %% of reading\" %Error_Reading \n",
+      "Error_FullScale= Error/FullScale*100 # % of full scale\n",
+      "print \"Error percentage of full scale = %0.f %% of full-scale\" %Error_FullScale\n",
+      "\n",
+      "VR= 20 # voltmeter reading in volt\n",
+      "Error= -0.4 # in volt\n",
+      "Error_Reading= Error/VR*100 # % of reading\n",
+      "print \"Error percentage of reading    = %0.f %% of reading\" %Error_Reading \n",
+      "Error_FullScale= Error/FullScale*100 # % of full scale\n",
+      "print \"Error percentage of full scale = %0.1f %% of full-scale\" %Error_FullScale"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Error percentage of reading    = -5 % of reading\n",
+        "Error percentage of full scale = -1 % of full-scale\n",
+        "Error percentage of reading    = 2.5 % of reading\n",
+        "Error percentage of full scale = 1 % of full-scale\n",
+        "Error percentage of reading    = -2 % of reading\n",
+        "Error percentage of full scale = -1.6 % of full-scale\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Example :  10.2 - Page No : 286"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      " #Given data\n",
+      "Pm=1250 # in watt\n",
+      "V=255 # in volt\n",
+      "I=4.8 # in amp\n",
+      "P=V*I #/ in watt\n",
+      "AbsoluteError= Pm-P # in watt\n",
+      "print \"Absolute Error = %0.f watt\" %AbsoluteError \n",
+      "PerError= AbsoluteError/Pm*100 # in %\n",
+      "print \"Percentage Error = %0.2f %%\" %PerError"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Absolute Error = 26 watt\n",
+        "Percentage Error = 2.08 %\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/README.txt b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/README.txt
new file mode 100755
index 00000000..d79cad15
--- /dev/null
+++ b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/README.txt
@@ -0,0 +1,10 @@
+Contributed By: Sabiya 
+Course: btech
+College/Institute/Organization: Dev Bhoomi Group Of Institution
+Department/Designation: ECE
+Book Title: Electronic Instrumentation And Measurements
+Author: J.B.Gupta
+Publisher:  S. K. Katariya & Sons, Delhi
+Year of publication: 2010
+Isbn: 81-89757-30-X
+Edition: 3
\ No newline at end of file
diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/screenshots/snap1.png b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/screenshots/snap1.png
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diff --git a/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/screenshots/snap3_2.png b/Electronic_Instrumentation_And_Measurements_by_J.B.Gupta/screenshots/snap3_2.png
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