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 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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 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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 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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 A Strength_Of_Materials_by_B_K_Sarkar/chapter_10_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_10_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_11_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_11_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_12_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_12_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_13_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_13_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_14_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_14_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_15_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_15_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_16_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_16_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_17_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_17_som_1.ipynb 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 A Strength_Of_Materials_by_B_K_Sarkar/chapter_2_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_3_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_3_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_4_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_4_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_5_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_5_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_6_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_6_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_7_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_7_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_8_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_8_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_9_som.ipynb A Strength_Of_Materials_by_B_K_Sarkar/chapter_9_som_1.ipynb A Strength_Of_Materials_by_B_K_Sarkar/screenshots/B.M.D_1.JPG A Strength_Of_Materials_by_B_K_Sarkar/screenshots/B.M.D_2.JPG A Strength_Of_Materials_by_B_K_Sarkar/screenshots/BMD2.png A Strength_Of_Materials_by_B_K_Sarkar/screenshots/S.F.D_1.jpg A Strength_Of_Materials_by_B_K_Sarkar/screenshots/S.F.D_1_1.jpg 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 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author: FOSSEE SysAds 2015-12-08 15:04:13 +0600
committer: FOSSEE SysAds 2015-12-08 15:04:13 +0600
commit: 534e42c1dee8fefa92f28d4496f273f8c6e4bd94 (patch)
tree: 2896915c480bcca6cfbe6432f3fa84e2166f589b /Electronic_Circuits_by_M._H._Tooley
parent: 3ed3fb328a5f4530eec6591d0ca6fe99c69b1013 (diff)
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+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:b9799d17ce9c5e8acfde2941052198091704f3207bfb93e90879b4a048464a60"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter1-Electrical Fundamentals"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg3"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.4\n",
+      "import math\n",
+      "ang_d=215.;##given\n",
+      "ang_r=ang_d*math.pi/180.;\n",
+      "print'%s %.2f %s %.2f %s '%(\"%f degree angle is \",ang_d,\" radians\" and \"\",ang_r,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "%f degree angle is  215.00  3.75  \n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg3"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.5\n",
+      "import math\n",
+      "ang_r=2.5;##given\n",
+      "ang_d=2.5*180./math.pi;##angle in degrees\n",
+      "print'%s %.2f %s %.2f %s '%(\"%f degree angle is \",ang_d,\" radians\" and \"\",ang_r,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "%f degree angle is  143.24  2.50  \n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.6\n",
+      "import math\n",
+      "i_amp=0.075;##given\n",
+      "i_milamp=i_amp*1000.;##current in milliamp.\n",
+      "print'%s %.2f %s'%(\"%f amp current is \",i_milamp,\" mA\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "%f amp current is  75.00  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.7\n",
+      "import math\n",
+      "fq_khz=1495.;##given\n",
+      "fq_Mhz=fq_khz/1000.;\n",
+      "print'%s %.2f %s'%(\" kHz frequency is \",fq_Mhz,\" MHz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " kHz frequency is  1.50  MHz\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.8\n",
+      "import math\n",
+      "c_pF=27000.;##given\n",
+      "c_uF=c_pF/1000.;\n",
+      "print'%s %.2f %s'%(\"picofarad capacitance is \",c_uF,\" microfarad\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "picofarad capacitance is  27.00  microfarad\n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.9\n",
+      "import math\n",
+      "c_mA=7.25;##given\n",
+      "c_A=c_mA*1000.;\n",
+      "print'%s %.2f %s'%(\" milliampere current is \",c_A,\" ampere\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " milliampere current is  7250.00  ampere\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex10-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.10\n",
+      "import math\n",
+      "vg_v=3.75*10**-6;##given\n",
+      "vg_mv=vg_v*1000.;\n",
+      "print'%s %.2e %s'%(\" volt voltage is \",vg_mv,\" mV\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " volt voltage is  3.75e-03  mV\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex11-pg5"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.11\n",
+      "import math\n",
+      "r=33000.;##in ohms\n",
+      "i=0.003;##in amp\n",
+      "v=i*r;\n",
+      "print'%s %.2f %s'%(\"Voltage dropped = \",v,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage dropped =  99.00  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex12-pg5"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.12\n",
+      "import math\n",
+      "t=20.*10**-3;##in sec\n",
+      "i=45.*10**-6;##in amp\n",
+      "q=i*t*10**9;\n",
+      "print'%s %.2f %s'%(\"Charge transferred = \",q,\" nC\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Charge transferred =  900.00  nC\n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex13-pg5"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.13\n",
+      "import math\n",
+      "p=0.3;##in watts\n",
+      "v=1500.;##in volts\n",
+      "i=(p/v)*10**6;\n",
+      "print'%s %.2f %s'%(\"Current supplied = \",i,\" microamp\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current supplied =  200.00  microamp\n"
+       ]
+      }
+     ],
+     "prompt_number": 11
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex14-pg7"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.14\n",
+      "import math\n",
+      "r=12.;##in ohms\n",
+      "v=6.;##in volts\n",
+      "i=(v/r);\n",
+      "print'%s %.2f %s'%(\"Current = \",i,\" Amp\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current =  0.50  Amp\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex15-pg7"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.15\n",
+      "import math\n",
+      "r=56.;##in ohms\n",
+      "i=0.1;##in amp\n",
+      "v=i*r;\n",
+      "print'%s %.2f %s'%(\"Voltage dropped = \",v,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage dropped =  5.60  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex16-pg7"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.16\n",
+      "import math\n",
+      "v=15.;##in volts\n",
+      "i=0.001;##in amp\n",
+      "r=v/i;\n",
+      "print'%s %.2f %s'%(\"Resistance = \",r,\" ohms\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance =  15000.00  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex17-pg7"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.17\n",
+      "import math\n",
+      "p=1.724*10**-8;##in ohm-meter\n",
+      "l=8.;##in meters\n",
+      "a=1.*10**-6;##in sq. meter\n",
+      "r=(p*l)/a;\n",
+      "print'%s %.2f %s'%(\"Resistance = \",r,\" ohms\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance =  0.14  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex18-pg8"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.18\n",
+      "import math\n",
+      "p=1.724*10**-8;##in ohm-meter\n",
+      "l=20.;##in meters\n",
+      "a=1.*10**-6;##in sq. meter\n",
+      "i=5.;##in amperes\n",
+      "r=(p*l)/a;\n",
+      "v=i*r;\n",
+      "print'%s %.2f %s'%(\"Voltage dropped = \",v,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage dropped =  1.72  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 16
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex19-pg9"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.19\n",
+      "import math\n",
+      "v=3.;##in volts\n",
+      "i=1.5;##in amperes\n",
+      "p=v*i;\n",
+      "print'%s %.2f %s'%(\"Power supplied = \",p,\" watts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Power supplied =  4.50  watts\n"
+       ]
+      }
+     ],
+     "prompt_number": 17
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex20-pg9"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.20\n",
+      "import math\n",
+      "v=4.;##in volts\n",
+      "r=100.;##in ohms\n",
+      "p=(v**2)/r;\n",
+      "print'%s %.2f %s'%(\"Power dissipated = \",p,\" watts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Power dissipated =  0.16  watts\n"
+       ]
+      }
+     ],
+     "prompt_number": 18
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex21-pg9"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.21\n",
+      "import math\n",
+      "i=20.*10**-3;##in amps\n",
+      "r=1000.;##in ohms\n",
+      "p=(i**2)*r;\n",
+      "print'%s %.2f %s'%(\"Power dissipated = \",p,\" watts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Power dissipated =  0.40  watts\n"
+       ]
+      }
+     ],
+     "prompt_number": 19
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex22-pg10"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.22\n",
+      "import math\n",
+      "v=600;##in volts\n",
+      "d=25*10^-3;##in meters\n",
+      "E=(v)/d;\n",
+      "print'%s %.2f %s'%(\"Electric Field Strength = \",E/10000,\" kV/m\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Electric Field Strength =  -1.00  kV/m\n"
+       ]
+      }
+     ],
+     "prompt_number": 20
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex23-pg13"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.23\n",
+      "import math\n",
+      "u=4.*math.pi*10**-7;##in H/m\n",
+      "i=20.;##in amps\n",
+      "d=50.*10**-3;##in meters\n",
+      "B=(u*i)/(2.*math.pi*d);\n",
+      "print'%s %.2e %s'%(\"Flux Density = \",B,\" Tesla\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Flux Density =  8.00e-05  Tesla\n"
+       ]
+      }
+     ],
+     "prompt_number": 21
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex24-pg13"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.24\n",
+      "import math\n",
+      "B=(2.5*10**-3);##in Tesla\n",
+      "a=(20.*10**-4);##in sq. meter\n",
+      "flux=B*a;\n",
+      "print'%s %.2e %s'%(\"Flux = \",flux,\" webers\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Flux =  5.00e-06  webers\n"
+       ]
+      }
+     ],
+     "prompt_number": 23
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex25-pg15"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.25\n",
+      "import math\n",
+      "B1=0.6;##in Tesla\n",
+      "u1=B1/800.;\n",
+      "u_r1=u1/(4.*math.pi*10**-7);\n",
+      "print'%s %.2f %s'%(\"reltive permitivity at 0.6T = \",u_r1,\"\");\n",
+      "B2=1.6;##in Tesla\n",
+      "u2=0.2/4000.;\n",
+      "u_r2=u2 /(4.*math.pi*10**-7);\n",
+      "print'%s %.2f %s'%(\"\\n reltive permitivity at 1.6T = \",u_r2,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "reltive permitivity at 0.6T =  596.83 \n",
+        "\n",
+        " reltive permitivity at 1.6T =  39.79 \n"
+       ]
+      }
+     ],
+     "prompt_number": 24
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex26-pg16"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.26\n",
+      "import math\n",
+      "flux=0.8*10**-3;\n",
+      "a=(500.*10**-6);##in sq. meter\n",
+      "l=0.6;##in meter\n",
+      "N=800.;\n",
+      "B=flux/a;\n",
+      "print'%s %.2e %s'%(\"Flux Density = \",B,\" Tesla\");\n",
+      "H=3500.;##in A/m\n",
+      "i=(H*l)/N;\n",
+      "print'%s %.2f %s'%(\"\\n Current required = \",i,\" amp.s\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Flux Density =  1.60e+00  Tesla\n",
+        "\n",
+        " Current required =  2.62  amp.s\n"
+       ]
+      }
+     ],
+     "prompt_number": 25
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter12.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter12.ipynb
new file mode 100644
index 00000000..f2eb51d4
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter12.ipynb
@@ -0,0 +1,143 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:611418a55a1ce6f7d6191bc684572e25d4bc1141f66c946bcb6af8a7291dd55c"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter12-The 555 timer"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg220"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:12.1\n",
+      "import math\n",
+      "C=100.*10**-9;\n",
+      "t_on=10.*10**-3;\n",
+      "R=(t_on/(1.1*C))/1000.;\n",
+      "print'%s %.2f %s'%(\"R= \",R,\" kohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "R=  90.91  kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg220"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:12.2\n",
+      "import math\n",
+      "C=100.*10**-6;\n",
+      "t_on=60.;\n",
+      "R=(t_on/(1.1*C))/1000.;\n",
+      "print'%s %.2f %s'%(\"R= \",R,\" kohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": []
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg223"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:12.3\n",
+      "import math\n",
+      "##R1=R2=R\n",
+      "prf=10.;\n",
+      "C=1.*10**-6;\n",
+      "R=0.48/(prf*C);\n",
+      "print'%s %.2f %s'%(\"R= \",R,\" ohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "R=  48000.00  ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg223"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:12.4\n",
+      "import math\n",
+      "prf=50.;\n",
+      "C=100*10**-9;\n",
+      "R=0.72/(prf*C);##in ohms\n",
+      "print'%s %.2f %s'%(\"R= \",R/1000,\" kohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "R=  144.00  kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter12_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter12_1.ipynb
new file mode 100644
index 00000000..f2eb51d4
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter12_1.ipynb
@@ -0,0 +1,143 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:611418a55a1ce6f7d6191bc684572e25d4bc1141f66c946bcb6af8a7291dd55c"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter12-The 555 timer"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg220"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:12.1\n",
+      "import math\n",
+      "C=100.*10**-9;\n",
+      "t_on=10.*10**-3;\n",
+      "R=(t_on/(1.1*C))/1000.;\n",
+      "print'%s %.2f %s'%(\"R= \",R,\" kohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "R=  90.91  kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg220"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:12.2\n",
+      "import math\n",
+      "C=100.*10**-6;\n",
+      "t_on=60.;\n",
+      "R=(t_on/(1.1*C))/1000.;\n",
+      "print'%s %.2f %s'%(\"R= \",R,\" kohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": []
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg223"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:12.3\n",
+      "import math\n",
+      "##R1=R2=R\n",
+      "prf=10.;\n",
+      "C=1.*10**-6;\n",
+      "R=0.48/(prf*C);\n",
+      "print'%s %.2f %s'%(\"R= \",R,\" ohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "R=  48000.00  ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg223"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:12.4\n",
+      "import math\n",
+      "prf=50.;\n",
+      "C=100*10**-9;\n",
+      "R=0.72/(prf*C);##in ohms\n",
+      "print'%s %.2f %s'%(\"R= \",R/1000,\" kohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "R=  144.00  kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter13.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter13.ipynb
new file mode 100644
index 00000000..8f1f8a80
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter13.ipynb
@@ -0,0 +1,289 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:d56d12390f39b518475a37bfc6bbb499a3e335e6c5fa1b48bf6416cc300a4e24"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter13-Radio"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg229"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.1\n",
+      "import math\n",
+      "c=3.*10**8;\n",
+      "wl=15.;\n",
+      "f=c/wl;\n",
+      "print'%s %.2f %s'%(\"The frequency = \",f,\" Hz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The frequency =  20000000.00  Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg229"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.2\n",
+      "import math\n",
+      "c=3.*10**8;\n",
+      "f=150.*10**6;\n",
+      "wl=c/f;\n",
+      "print'%s %.2f %s'%(\"The wavelength =\",wl,\" m\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The wavelength = 2.00  m\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg229"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.3\n",
+      "import math\n",
+      "wl=8.;\n",
+      "f=30.*10**6;\n",
+      "v=f*wl;\n",
+      "print'%s %.2f %s'%(\"The veocity of propagation = \",v,\" m/s\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The veocity of propagation =  240000000.00  m/s\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg230"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.4\n",
+      "import math\n",
+      "f_rf=162.5;##in kHz\n",
+      "f_af=1.25;##in kHz\n",
+      "f_bfo_max=f_rf+f_af;\n",
+      "f_bfo_min=f_rf-f_af;\n",
+      "print'%s %.2f %s %.2f %s '%(\"The two possible BFO freq. = \",f_bfo_max,\" kHz\" and \"\",f_bfo_min,\"kHz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The two possible BFO freq. =  163.75  161.25 kHz \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg234"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.5\n",
+      "import math\n",
+      "f_rf_1=88.;##in MHz\n",
+      "f_rf_2=108.;##in MHz\n",
+      "f_if=10.7;##in MHz\n",
+      "f_lo_1=f_rf_1+f_if;\n",
+      "f_lo_2=f_rf_2+f_if;\n",
+      "print'%s %.2f %s %.2f %s '%(\"The range local oscillator be tuned = \",f_lo_1,\" MHz\" and  \"\",f_lo_2,\" MHz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The range local oscillator be tuned =  98.70  118.70  MHz \n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg238"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.6\n",
+      "import math\n",
+      "f_rf_1=88.;##in MHz\n",
+      "f_rf_2=108.;##in MHz\n",
+      "f_if=10.7;##in MHz\n",
+      "f_lo_1=f_rf_1+f_if;\n",
+      "f_lo_2=f_rf_2+f_if;\n",
+      "print'%s %.2f %s %.2f %s '%(\"The range local oscillator be tuned = \",f_lo_1,\" MHz\" and \"\",f_lo_2,\"MHz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The range local oscillator be tuned =  98.70  118.70 MHz \n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg239"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.7\n",
+      "import math\n",
+      "r=12.;##in ohms\n",
+      "i=0.5;##in amps\n",
+      "P_r=i*i*r;##in W\n",
+      "print'%s %.2f %s'%(\"Power radiated = \",P_r,\" W\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Power radiated =  3.00  W\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg239"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.8\n",
+      "import math\n",
+      "r=2.;##in ohms\n",
+      "i=0.5;##in amps\n",
+      "P_r=4.;##in W\n",
+      "P_loss=i*i*r;\n",
+      "P_eff=(P_r/(P_r+P_loss))*100.;\n",
+      "print'%s %.2f %s'%(\"The power loss = \",P_loss,\" W\");\n",
+      "print'%s %.2f %s'%(\"\\n The power loss = \",P_eff,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The power loss =  0.50  W\n",
+        "\n",
+        " The power loss =  88.89 \n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter13_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter13_1.ipynb
new file mode 100644
index 00000000..8f1f8a80
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter13_1.ipynb
@@ -0,0 +1,289 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:d56d12390f39b518475a37bfc6bbb499a3e335e6c5fa1b48bf6416cc300a4e24"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter13-Radio"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg229"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.1\n",
+      "import math\n",
+      "c=3.*10**8;\n",
+      "wl=15.;\n",
+      "f=c/wl;\n",
+      "print'%s %.2f %s'%(\"The frequency = \",f,\" Hz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The frequency =  20000000.00  Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg229"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.2\n",
+      "import math\n",
+      "c=3.*10**8;\n",
+      "f=150.*10**6;\n",
+      "wl=c/f;\n",
+      "print'%s %.2f %s'%(\"The wavelength =\",wl,\" m\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The wavelength = 2.00  m\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg229"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.3\n",
+      "import math\n",
+      "wl=8.;\n",
+      "f=30.*10**6;\n",
+      "v=f*wl;\n",
+      "print'%s %.2f %s'%(\"The veocity of propagation = \",v,\" m/s\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The veocity of propagation =  240000000.00  m/s\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg230"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.4\n",
+      "import math\n",
+      "f_rf=162.5;##in kHz\n",
+      "f_af=1.25;##in kHz\n",
+      "f_bfo_max=f_rf+f_af;\n",
+      "f_bfo_min=f_rf-f_af;\n",
+      "print'%s %.2f %s %.2f %s '%(\"The two possible BFO freq. = \",f_bfo_max,\" kHz\" and \"\",f_bfo_min,\"kHz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The two possible BFO freq. =  163.75  161.25 kHz \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg234"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.5\n",
+      "import math\n",
+      "f_rf_1=88.;##in MHz\n",
+      "f_rf_2=108.;##in MHz\n",
+      "f_if=10.7;##in MHz\n",
+      "f_lo_1=f_rf_1+f_if;\n",
+      "f_lo_2=f_rf_2+f_if;\n",
+      "print'%s %.2f %s %.2f %s '%(\"The range local oscillator be tuned = \",f_lo_1,\" MHz\" and  \"\",f_lo_2,\" MHz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The range local oscillator be tuned =  98.70  118.70  MHz \n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg238"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.6\n",
+      "import math\n",
+      "f_rf_1=88.;##in MHz\n",
+      "f_rf_2=108.;##in MHz\n",
+      "f_if=10.7;##in MHz\n",
+      "f_lo_1=f_rf_1+f_if;\n",
+      "f_lo_2=f_rf_2+f_if;\n",
+      "print'%s %.2f %s %.2f %s '%(\"The range local oscillator be tuned = \",f_lo_1,\" MHz\" and \"\",f_lo_2,\"MHz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The range local oscillator be tuned =  98.70  118.70 MHz \n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg239"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.7\n",
+      "import math\n",
+      "r=12.;##in ohms\n",
+      "i=0.5;##in amps\n",
+      "P_r=i*i*r;##in W\n",
+      "print'%s %.2f %s'%(\"Power radiated = \",P_r,\" W\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Power radiated =  3.00  W\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg239"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:13.8\n",
+      "import math\n",
+      "r=2.;##in ohms\n",
+      "i=0.5;##in amps\n",
+      "P_r=4.;##in W\n",
+      "P_loss=i*i*r;\n",
+      "P_eff=(P_r/(P_r+P_loss))*100.;\n",
+      "print'%s %.2f %s'%(\"The power loss = \",P_loss,\" W\");\n",
+      "print'%s %.2f %s'%(\"\\n The power loss = \",P_eff,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The power loss =  0.50  W\n",
+        "\n",
+        " The power loss =  88.89 \n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter1_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter1_1.ipynb
new file mode 100644
index 00000000..5c47a9e8
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter1_1.ipynb
@@ -0,0 +1,770 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:b9799d17ce9c5e8acfde2941052198091704f3207bfb93e90879b4a048464a60"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter1-Electrical Fundamentals"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg3"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.4\n",
+      "import math\n",
+      "ang_d=215.;##given\n",
+      "ang_r=ang_d*math.pi/180.;\n",
+      "print'%s %.2f %s %.2f %s '%(\"%f degree angle is \",ang_d,\" radians\" and \"\",ang_r,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "%f degree angle is  215.00  3.75  \n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg3"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.5\n",
+      "import math\n",
+      "ang_r=2.5;##given\n",
+      "ang_d=2.5*180./math.pi;##angle in degrees\n",
+      "print'%s %.2f %s %.2f %s '%(\"%f degree angle is \",ang_d,\" radians\" and \"\",ang_r,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "%f degree angle is  143.24  2.50  \n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.6\n",
+      "import math\n",
+      "i_amp=0.075;##given\n",
+      "i_milamp=i_amp*1000.;##current in milliamp.\n",
+      "print'%s %.2f %s'%(\"%f amp current is \",i_milamp,\" mA\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "%f amp current is  75.00  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.7\n",
+      "import math\n",
+      "fq_khz=1495.;##given\n",
+      "fq_Mhz=fq_khz/1000.;\n",
+      "print'%s %.2f %s'%(\" kHz frequency is \",fq_Mhz,\" MHz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " kHz frequency is  1.50  MHz\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.8\n",
+      "import math\n",
+      "c_pF=27000.;##given\n",
+      "c_uF=c_pF/1000.;\n",
+      "print'%s %.2f %s'%(\"picofarad capacitance is \",c_uF,\" microfarad\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "picofarad capacitance is  27.00  microfarad\n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.9\n",
+      "import math\n",
+      "c_mA=7.25;##given\n",
+      "c_A=c_mA*1000.;\n",
+      "print'%s %.2f %s'%(\" milliampere current is \",c_A,\" ampere\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " milliampere current is  7250.00  ampere\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex10-pg4"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Exa:1.10\n",
+      "import math\n",
+      "vg_v=3.75*10**-6;##given\n",
+      "vg_mv=vg_v*1000.;\n",
+      "print'%s %.2e %s'%(\" volt voltage is \",vg_mv,\" mV\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " volt voltage is  3.75e-03  mV\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex11-pg5"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.11\n",
+      "import math\n",
+      "r=33000.;##in ohms\n",
+      "i=0.003;##in amp\n",
+      "v=i*r;\n",
+      "print'%s %.2f %s'%(\"Voltage dropped = \",v,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage dropped =  99.00  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex12-pg5"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.12\n",
+      "import math\n",
+      "t=20.*10**-3;##in sec\n",
+      "i=45.*10**-6;##in amp\n",
+      "q=i*t*10**9;\n",
+      "print'%s %.2f %s'%(\"Charge transferred = \",q,\" nC\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Charge transferred =  900.00  nC\n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex13-pg5"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.13\n",
+      "import math\n",
+      "p=0.3;##in watts\n",
+      "v=1500.;##in volts\n",
+      "i=(p/v)*10**6;\n",
+      "print'%s %.2f %s'%(\"Current supplied = \",i,\" microamp\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current supplied =  200.00  microamp\n"
+       ]
+      }
+     ],
+     "prompt_number": 11
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex14-pg7"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.14\n",
+      "import math\n",
+      "r=12.;##in ohms\n",
+      "v=6.;##in volts\n",
+      "i=(v/r);\n",
+      "print'%s %.2f %s'%(\"Current = \",i,\" Amp\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current =  0.50  Amp\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex15-pg7"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.15\n",
+      "import math\n",
+      "r=56.;##in ohms\n",
+      "i=0.1;##in amp\n",
+      "v=i*r;\n",
+      "print'%s %.2f %s'%(\"Voltage dropped = \",v,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage dropped =  5.60  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex16-pg7"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.16\n",
+      "import math\n",
+      "v=15.;##in volts\n",
+      "i=0.001;##in amp\n",
+      "r=v/i;\n",
+      "print'%s %.2f %s'%(\"Resistance = \",r,\" ohms\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance =  15000.00  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex17-pg7"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.17\n",
+      "import math\n",
+      "p=1.724*10**-8;##in ohm-meter\n",
+      "l=8.;##in meters\n",
+      "a=1.*10**-6;##in sq. meter\n",
+      "r=(p*l)/a;\n",
+      "print'%s %.2f %s'%(\"Resistance = \",r,\" ohms\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance =  0.14  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex18-pg8"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.18\n",
+      "import math\n",
+      "p=1.724*10**-8;##in ohm-meter\n",
+      "l=20.;##in meters\n",
+      "a=1.*10**-6;##in sq. meter\n",
+      "i=5.;##in amperes\n",
+      "r=(p*l)/a;\n",
+      "v=i*r;\n",
+      "print'%s %.2f %s'%(\"Voltage dropped = \",v,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage dropped =  1.72  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 16
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex19-pg9"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.19\n",
+      "import math\n",
+      "v=3.;##in volts\n",
+      "i=1.5;##in amperes\n",
+      "p=v*i;\n",
+      "print'%s %.2f %s'%(\"Power supplied = \",p,\" watts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Power supplied =  4.50  watts\n"
+       ]
+      }
+     ],
+     "prompt_number": 17
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex20-pg9"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.20\n",
+      "import math\n",
+      "v=4.;##in volts\n",
+      "r=100.;##in ohms\n",
+      "p=(v**2)/r;\n",
+      "print'%s %.2f %s'%(\"Power dissipated = \",p,\" watts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Power dissipated =  0.16  watts\n"
+       ]
+      }
+     ],
+     "prompt_number": 18
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex21-pg9"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.21\n",
+      "import math\n",
+      "i=20.*10**-3;##in amps\n",
+      "r=1000.;##in ohms\n",
+      "p=(i**2)*r;\n",
+      "print'%s %.2f %s'%(\"Power dissipated = \",p,\" watts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Power dissipated =  0.40  watts\n"
+       ]
+      }
+     ],
+     "prompt_number": 19
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex22-pg10"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.22\n",
+      "import math\n",
+      "v=600;##in volts\n",
+      "d=25*10^-3;##in meters\n",
+      "E=(v)/d;\n",
+      "print'%s %.2f %s'%(\"Electric Field Strength = \",E/10000,\" kV/m\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Electric Field Strength =  -1.00  kV/m\n"
+       ]
+      }
+     ],
+     "prompt_number": 20
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex23-pg13"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.23\n",
+      "import math\n",
+      "u=4.*math.pi*10**-7;##in H/m\n",
+      "i=20.;##in amps\n",
+      "d=50.*10**-3;##in meters\n",
+      "B=(u*i)/(2.*math.pi*d);\n",
+      "print'%s %.2e %s'%(\"Flux Density = \",B,\" Tesla\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Flux Density =  8.00e-05  Tesla\n"
+       ]
+      }
+     ],
+     "prompt_number": 21
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex24-pg13"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.24\n",
+      "import math\n",
+      "B=(2.5*10**-3);##in Tesla\n",
+      "a=(20.*10**-4);##in sq. meter\n",
+      "flux=B*a;\n",
+      "print'%s %.2e %s'%(\"Flux = \",flux,\" webers\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Flux =  5.00e-06  webers\n"
+       ]
+      }
+     ],
+     "prompt_number": 23
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex25-pg15"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.25\n",
+      "import math\n",
+      "B1=0.6;##in Tesla\n",
+      "u1=B1/800.;\n",
+      "u_r1=u1/(4.*math.pi*10**-7);\n",
+      "print'%s %.2f %s'%(\"reltive permitivity at 0.6T = \",u_r1,\"\");\n",
+      "B2=1.6;##in Tesla\n",
+      "u2=0.2/4000.;\n",
+      "u_r2=u2 /(4.*math.pi*10**-7);\n",
+      "print'%s %.2f %s'%(\"\\n reltive permitivity at 1.6T = \",u_r2,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "reltive permitivity at 0.6T =  596.83 \n",
+        "\n",
+        " reltive permitivity at 1.6T =  39.79 \n"
+       ]
+      }
+     ],
+     "prompt_number": 24
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex26-pg16"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:1.26\n",
+      "import math\n",
+      "flux=0.8*10**-3;\n",
+      "a=(500.*10**-6);##in sq. meter\n",
+      "l=0.6;##in meter\n",
+      "N=800.;\n",
+      "B=flux/a;\n",
+      "print'%s %.2e %s'%(\"Flux Density = \",B,\" Tesla\");\n",
+      "H=3500.;##in A/m\n",
+      "i=(H*l)/N;\n",
+      "print'%s %.2f %s'%(\"\\n Current required = \",i,\" amp.s\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Flux Density =  1.60e+00  Tesla\n",
+        "\n",
+        " Current required =  2.62  amp.s\n"
+       ]
+      }
+     ],
+     "prompt_number": 25
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter2.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter2.ipynb
new file mode 100644
index 00000000..20419576
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter2.ipynb
@@ -0,0 +1,1045 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:b5194708e2447220722c4dfa1402fc797342ce58013c4fb6e50908b3fd6172f1"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter2-Passive Components "
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg23"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.1\n",
+      "import math\n",
+      "marked=220.;##in ohms\n",
+      "measured=207.;##in ohms\n",
+      "err=marked-measured;\n",
+      "tol=(err/marked)*100.;\n",
+      "print'%s %.2f %s'%(\"Tolerance = \",tol,\"\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Tolerance =  5.91 \n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg23"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.2\n",
+      "import math\n",
+      "r=39.;##in ohms\n",
+      "v=9.;##in volts\n",
+      "i=(v/r);##in Amps\n",
+      "print'%s %.2f %s'%(\"Current = \",i*1000,\" mA\");\n",
+      "tol=0.1;##i.e, 10%\n",
+      "r_min=r-(tol*r);\n",
+      "i_max=v/r_min;\n",
+      "r_max=r+(tol*r);\n",
+      "i_min=v/r_max;\n",
+      "print'%s %.2f %s %.2f %s '%(\"\\n  Max.Current = \",i_max*1000,\" mA \" and \"\",i_min*1000,\" Min Current\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current =  230.77  mA\n",
+        "\n",
+        "  Max.Current =  256.41  209.79  Min Current \n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg23"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.3\n",
+      "import math\n",
+      "v=28.;##in volts\n",
+      "i=0.1;##in A\n",
+      "r=v/i;\n",
+      "p=v*i;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Resistance Value = \",r,\" ohms & Power dissipated\"\" = \",p,\" W\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance Value =  280.00  ohms & Power dissipated =  2.80  W \n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.4\n",
+      "import math\n",
+      "r=10*(10**2);\n",
+      "print'%s %.2f %s'%(\"Resistor value = \",r,\" ohm\");\n",
+      "print(\"\\nTolerance = 10 \");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor value =  1000.00  ohm\n",
+        "\n",
+        "Tolerance = 10 \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.5\n",
+      "import math\n",
+      "r=27.*(10**3);\n",
+      "print'%s %.2f %s'%(\"Resistor value = \",r,\" ohm\");\n",
+      "print(\"\\nTolerance = 5 \");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor value =  27000.00  ohm\n",
+        "\n",
+        "Tolerance = 5 \n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.6\n",
+      "import math\n",
+      "r=56*(10);\n",
+      "print'%s %.2f %s'%(\"Resistor value = \",r,\" ohm\");\n",
+      "print(\"\\nTolerance = 5 \");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor value =  560.00  ohm\n",
+        "\n",
+        "Tolerance = 5 \n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.7\n",
+      "import math\n",
+      "r=25.*(10**0);\n",
+      "print'%s %.2f %s'%(\"Resistor value = \",r,\" ohm\");\n",
+      "print(\"\\nTolerance = 20 \");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor value =  25.00  ohm\n",
+        "\n",
+        "Tolerance = 20 \n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.8\n",
+      "import math\n",
+      "r=22.*(10**3);\n",
+      "print(\"Bands are Red, Red, Red, Red\");\n",
+      "\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Bands are Red, Red, Red, Red\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.9\n",
+      "import math\n",
+      "print(\"Resistance = 4.7 ohm with 10%% tolerance\");\n",
+      "\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance = 4.7 ohm with 10%% tolerance\n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex10-pg25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.10\n",
+      "import math\n",
+      "print(\"Resistance = 330 ohms with 2%% tolerance\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance = 330 ohms with 2%% tolerance\n"
+       ]
+      }
+     ],
+     "prompt_number": 11
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex11-pg26"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.11\n",
+      "import math\n",
+      "print(\"Resistance = 0.22 ohm with 20%% tolerance\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance = 0.22 ohm with 20%% tolerance\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex12-pg26"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.12\n",
+      "import math\n",
+      "r1=22.;##in ohms\n",
+      "r2=47.;##in ohms\n",
+      "r3=33.;##in ohms\n",
+      "r_ser=r1+r2+r3;\n",
+      "print'%s %.2f %s'%(\"Effective resistance in series = \",r_ser,\" ohms\");\n",
+      "r_parel=((1./r1)+(1./r2)+(1./r3))**-1;\n",
+      "print'%s %.2f %s'%(\"\\n Effective resistance in parallel = \",r_parel,\" ohms\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Effective resistance in series =  102.00  ohms\n",
+        "\n",
+        " Effective resistance in parallel =  10.31  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex13-pg27"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.13\n",
+      "import math\n",
+      "r1=4.7;##in ohms\n",
+      "r2=47.;##in ohms\n",
+      "r3=12.;##in ohms\n",
+      "r4=27.;##in ohms\n",
+      "r5=r3+r4;\n",
+      "r_parel=((1./r5)+(1./r2))**-1;\n",
+      "r_eff=r_parel+r1;\n",
+      "print'%s %.2f %s'%(\"Effective resistance = \",r_eff,\" ohms\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Effective resistance =  26.01  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex14-pg27"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.14\n",
+      "import math\n",
+      "print(\"Two 100 ohm resistor of 1 W\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Two 100 ohm resistor of 1 W\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex15-pg28"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.15\n",
+      "import math\n",
+      "temp_coeff=0.001;##in per degree centigrade\n",
+      "r_o=1500.;##in ohm\n",
+      "t=80.;##temperature diff.\n",
+      "r_t=r_o*(1.+(temp_coeff)*t)\n",
+      "print'%s %.2f %s'%(\"Resistance at \",r_t,\" degree = ohms\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance at  1620.00  degree = ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 16
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex16-pg28"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.16\n",
+      "import math\n",
+      "temp_coeff=0.0005;##in per degree centigrade\n",
+      "r_t1=680.;##in ohm\n",
+      "t1=20.;##temperature diff.\n",
+      "t2=90.;\n",
+      "r_o=r_t1/(1.+(temp_coeff)*t1);\n",
+      "r_t2=r_o*(1.+(temp_coeff)*t2);\n",
+      "print'%s %.2f %s %.2f %s '%(\"Resistance at \",t2,\" degree = \",r_t2,\" ohms\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance at  90.00  degree =  703.56  ohms \n"
+       ]
+      }
+     ],
+     "prompt_number": 17
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex17-pg29"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.17\n",
+      "import math\n",
+      "r_o=40.;##resis at 0 degree\n",
+      "r_t=44.;##at 100 degree\n",
+      "t=100.;##temperature diff.\n",
+      "temp_coeff=(1./t)*((r_t/r_o)-1.);\n",
+      "print'%s %.2e %s'%(\"Temperature Coefficient = \",temp_coeff,\" per degree centigrade\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Temperature Coefficient =  1.00e-03  per degree centigrade\n"
+       ]
+      }
+     ],
+     "prompt_number": 18
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex18-pg33"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.18\n",
+      "import math\n",
+      "V_1=50.;\n",
+      "V_2=10.;\n",
+      "dV=V_1-V_2;##in volts\n",
+      "dt=0.1;##in seconds\n",
+      "C=22.*10**-6;\n",
+      "i=C*(dV/dt)*1000.;##in mA\n",
+      "print'%s %.2f %s'%(\"Current flow = \",i,\" milliAmps\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current flow =  8.80  milliAmps\n"
+       ]
+      }
+     ],
+     "prompt_number": 19
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex19-pg33"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.19\n",
+      "import math\n",
+      "C=10.*10**-6;\n",
+      "V=250.;##in volts\n",
+      "Q=V*C*1000.;##in millicoulomb\n",
+      "print'%s %.2f %s'%(\"Charged stored =\",Q,\" mC\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Charged stored = 2.50  mC\n"
+       ]
+      }
+     ],
+     "prompt_number": 20
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex20-pg33"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.20\n",
+      "import math\n",
+      "C=47.*10**-6;##in farads\n",
+      "W=4.;##energy in joules\n",
+      "V=math.sqrt(W/(0.5*C));\n",
+      "print'%s %.2f %s'%(\"Voltage tht be applied = \",V,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage tht be applied =  412.57  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 21
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex21-pg34"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.21\n",
+      "import math\n",
+      "E_o=8.85*10**-12;\n",
+      "E_r=5.4;\n",
+      "C=1*10**-9;\n",
+      "d=0.1*10**-3;\n",
+      "A=(C*d)/(E_o*E_r)*10**4;\n",
+      "print'%s %.2f %s'%(\"Required plate area = \",A,\" sq. cm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Required plate area =  20.92  sq. cm\n"
+       ]
+      }
+     ],
+     "prompt_number": 22
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex22-pg34"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.22\n",
+      "import math\n",
+      "E_o=8.85*10**-12;\n",
+      "E_r=4.5;\n",
+      "n=6.;##no. of plates\n",
+      "d=0.2*10**-3;##in meter\n",
+      "A=20.*10**-4;##in sq.meter\n",
+      "C=((E_o*E_r*(n-1.)*A)/d)*10**11;\n",
+      "print'%s %.2f %s'%(\"Capacitance = \",C,\" pF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance =  199.12  pF\n"
+       ]
+      }
+     ],
+     "prompt_number": 23
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex23-pg36"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.23\n",
+      "import math\n",
+      "print(\"Capacitance = 10000 pF of 10%%\"); "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance = 10000 pF of 10%%\n"
+       ]
+      }
+     ],
+     "prompt_number": 24
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex24-pg36"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.24\n",
+      "import math\n",
+      "print(\"Capacitance = 150 pF of 2%% tolerance at 100 V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance = 150 pF of 2%% tolerance at 100 V\n"
+       ]
+      }
+     ],
+     "prompt_number": 25
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex25-pg37"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.25\n",
+      "import math\n",
+      "C1=2.;##in nF\n",
+      "C2=4.;##in nF\n",
+      "C3=2.;\n",
+      "C4=4.;\n",
+      "C_a=C1+C2;\n",
+      "C_b=C_a*C3/(C_a+C3);\n",
+      "C_eff=C4+C_b;\n",
+      "print'%s %.2f %s'%(\"Capacitance = \",C_eff,\" nF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance =  5.50  nF\n"
+       ]
+      }
+     ],
+     "prompt_number": 26
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex26-pg37"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.26\n",
+      "import math\n",
+      "C=100.;##in uF\n",
+      "C_eff=C*C/(C+C);\n",
+      "print'%s %.2f %s'%(\"Two capacitors of  uF be in parallel used to make \",C_eff,\" uF capacitance\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Two capacitors of  uF be in parallel used to make  50.00  uF capacitance\n"
+       ]
+      }
+     ],
+     "prompt_number": 27
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex27-pg40"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.27\n",
+      "import math\n",
+      "L=600.*10**-3;##in H\n",
+      "I1=6.;##in A\n",
+      "I2=2.;##in A\n",
+      "dI=I1-I2;\n",
+      "dt=250.*10**-3;##in sec.\n",
+      "E=-L*(dI/dt);\n",
+      "print'%s %.2f %s'%(\"Induced voltage = \",E,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Induced voltage =  -9.60  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 28
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex28-pg40"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.28\n",
+      "import math\n",
+      "E=2.5;##energy in joules\n",
+      "L=20.*10**-3;##in henry\n",
+      "I=math.sqrt(E/(0.5*L));\n",
+      "print'%s %.2f %s'%(\"Current = \",I,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current =  15.81  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 29
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex29-pg40"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.29\n",
+      "import math\n",
+      "u_o=12.57*10**-7;\n",
+      "u_r=500.;\n",
+      "A=15.*10**-4;##area of cross-section in sq. meters\n",
+      "l=20.*10**-2;##length\n",
+      "L=100.*10**-3;##in henry\n",
+      "n=math.sqrt((L*l)/(u_r*u_o*A));\n",
+      "print'%s %.2f %s'%(\"Inductor requires \",n,\" turns of wire\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Inductor requires  145.65  turns of wire\n"
+       ]
+      }
+     ],
+     "prompt_number": 30
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex30-pg42"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.30\n",
+      "import math\n",
+      "##L=(L1*L2)/(L1+L2)\n",
+      "L_eq=5.;##in millihenry\n",
+      "print'%s %.2f %s'%(\"Inductor of 10 mH wired in parallel would provide \",L_eq,\" mH\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Inductor of 10 mH wired in parallel would provide  5.00  mH\n"
+       ]
+      }
+     ],
+     "prompt_number": 31
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex31-pg42"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.31\n",
+      "import math\n",
+      "L1=60.;##in mH\n",
+      "L2=60.;##in mH\n",
+      "L_a=L1+L2;\n",
+      "L3=120.;##in mH\n",
+      "L_b=L_a*L3/(L_a+L3);\n",
+      "L4=50.;##in mH\n",
+      "L_eq=L4+L_b;\n",
+      "print'%s %.2f %s'%(\"Equivalent Inductance = \",L_eq,\" mH\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Equivalent Inductance =  110.00  mH\n"
+       ]
+      }
+     ],
+     "prompt_number": 32
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter2_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter2_1.ipynb
new file mode 100644
index 00000000..20419576
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter2_1.ipynb
@@ -0,0 +1,1045 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:b5194708e2447220722c4dfa1402fc797342ce58013c4fb6e50908b3fd6172f1"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter2-Passive Components "
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg23"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.1\n",
+      "import math\n",
+      "marked=220.;##in ohms\n",
+      "measured=207.;##in ohms\n",
+      "err=marked-measured;\n",
+      "tol=(err/marked)*100.;\n",
+      "print'%s %.2f %s'%(\"Tolerance = \",tol,\"\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Tolerance =  5.91 \n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg23"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.2\n",
+      "import math\n",
+      "r=39.;##in ohms\n",
+      "v=9.;##in volts\n",
+      "i=(v/r);##in Amps\n",
+      "print'%s %.2f %s'%(\"Current = \",i*1000,\" mA\");\n",
+      "tol=0.1;##i.e, 10%\n",
+      "r_min=r-(tol*r);\n",
+      "i_max=v/r_min;\n",
+      "r_max=r+(tol*r);\n",
+      "i_min=v/r_max;\n",
+      "print'%s %.2f %s %.2f %s '%(\"\\n  Max.Current = \",i_max*1000,\" mA \" and \"\",i_min*1000,\" Min Current\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current =  230.77  mA\n",
+        "\n",
+        "  Max.Current =  256.41  209.79  Min Current \n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg23"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.3\n",
+      "import math\n",
+      "v=28.;##in volts\n",
+      "i=0.1;##in A\n",
+      "r=v/i;\n",
+      "p=v*i;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Resistance Value = \",r,\" ohms & Power dissipated\"\" = \",p,\" W\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance Value =  280.00  ohms & Power dissipated =  2.80  W \n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.4\n",
+      "import math\n",
+      "r=10*(10**2);\n",
+      "print'%s %.2f %s'%(\"Resistor value = \",r,\" ohm\");\n",
+      "print(\"\\nTolerance = 10 \");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor value =  1000.00  ohm\n",
+        "\n",
+        "Tolerance = 10 \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.5\n",
+      "import math\n",
+      "r=27.*(10**3);\n",
+      "print'%s %.2f %s'%(\"Resistor value = \",r,\" ohm\");\n",
+      "print(\"\\nTolerance = 5 \");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor value =  27000.00  ohm\n",
+        "\n",
+        "Tolerance = 5 \n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.6\n",
+      "import math\n",
+      "r=56*(10);\n",
+      "print'%s %.2f %s'%(\"Resistor value = \",r,\" ohm\");\n",
+      "print(\"\\nTolerance = 5 \");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor value =  560.00  ohm\n",
+        "\n",
+        "Tolerance = 5 \n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg24"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.7\n",
+      "import math\n",
+      "r=25.*(10**0);\n",
+      "print'%s %.2f %s'%(\"Resistor value = \",r,\" ohm\");\n",
+      "print(\"\\nTolerance = 20 \");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor value =  25.00  ohm\n",
+        "\n",
+        "Tolerance = 20 \n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.8\n",
+      "import math\n",
+      "r=22.*(10**3);\n",
+      "print(\"Bands are Red, Red, Red, Red\");\n",
+      "\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Bands are Red, Red, Red, Red\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.9\n",
+      "import math\n",
+      "print(\"Resistance = 4.7 ohm with 10%% tolerance\");\n",
+      "\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance = 4.7 ohm with 10%% tolerance\n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex10-pg25"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.10\n",
+      "import math\n",
+      "print(\"Resistance = 330 ohms with 2%% tolerance\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance = 330 ohms with 2%% tolerance\n"
+       ]
+      }
+     ],
+     "prompt_number": 11
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex11-pg26"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.11\n",
+      "import math\n",
+      "print(\"Resistance = 0.22 ohm with 20%% tolerance\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance = 0.22 ohm with 20%% tolerance\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex12-pg26"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.12\n",
+      "import math\n",
+      "r1=22.;##in ohms\n",
+      "r2=47.;##in ohms\n",
+      "r3=33.;##in ohms\n",
+      "r_ser=r1+r2+r3;\n",
+      "print'%s %.2f %s'%(\"Effective resistance in series = \",r_ser,\" ohms\");\n",
+      "r_parel=((1./r1)+(1./r2)+(1./r3))**-1;\n",
+      "print'%s %.2f %s'%(\"\\n Effective resistance in parallel = \",r_parel,\" ohms\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Effective resistance in series =  102.00  ohms\n",
+        "\n",
+        " Effective resistance in parallel =  10.31  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex13-pg27"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.13\n",
+      "import math\n",
+      "r1=4.7;##in ohms\n",
+      "r2=47.;##in ohms\n",
+      "r3=12.;##in ohms\n",
+      "r4=27.;##in ohms\n",
+      "r5=r3+r4;\n",
+      "r_parel=((1./r5)+(1./r2))**-1;\n",
+      "r_eff=r_parel+r1;\n",
+      "print'%s %.2f %s'%(\"Effective resistance = \",r_eff,\" ohms\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Effective resistance =  26.01  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex14-pg27"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.14\n",
+      "import math\n",
+      "print(\"Two 100 ohm resistor of 1 W\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Two 100 ohm resistor of 1 W\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex15-pg28"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.15\n",
+      "import math\n",
+      "temp_coeff=0.001;##in per degree centigrade\n",
+      "r_o=1500.;##in ohm\n",
+      "t=80.;##temperature diff.\n",
+      "r_t=r_o*(1.+(temp_coeff)*t)\n",
+      "print'%s %.2f %s'%(\"Resistance at \",r_t,\" degree = ohms\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance at  1620.00  degree = ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 16
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex16-pg28"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.16\n",
+      "import math\n",
+      "temp_coeff=0.0005;##in per degree centigrade\n",
+      "r_t1=680.;##in ohm\n",
+      "t1=20.;##temperature diff.\n",
+      "t2=90.;\n",
+      "r_o=r_t1/(1.+(temp_coeff)*t1);\n",
+      "r_t2=r_o*(1.+(temp_coeff)*t2);\n",
+      "print'%s %.2f %s %.2f %s '%(\"Resistance at \",t2,\" degree = \",r_t2,\" ohms\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistance at  90.00  degree =  703.56  ohms \n"
+       ]
+      }
+     ],
+     "prompt_number": 17
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex17-pg29"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.17\n",
+      "import math\n",
+      "r_o=40.;##resis at 0 degree\n",
+      "r_t=44.;##at 100 degree\n",
+      "t=100.;##temperature diff.\n",
+      "temp_coeff=(1./t)*((r_t/r_o)-1.);\n",
+      "print'%s %.2e %s'%(\"Temperature Coefficient = \",temp_coeff,\" per degree centigrade\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Temperature Coefficient =  1.00e-03  per degree centigrade\n"
+       ]
+      }
+     ],
+     "prompt_number": 18
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex18-pg33"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.18\n",
+      "import math\n",
+      "V_1=50.;\n",
+      "V_2=10.;\n",
+      "dV=V_1-V_2;##in volts\n",
+      "dt=0.1;##in seconds\n",
+      "C=22.*10**-6;\n",
+      "i=C*(dV/dt)*1000.;##in mA\n",
+      "print'%s %.2f %s'%(\"Current flow = \",i,\" milliAmps\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current flow =  8.80  milliAmps\n"
+       ]
+      }
+     ],
+     "prompt_number": 19
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex19-pg33"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.19\n",
+      "import math\n",
+      "C=10.*10**-6;\n",
+      "V=250.;##in volts\n",
+      "Q=V*C*1000.;##in millicoulomb\n",
+      "print'%s %.2f %s'%(\"Charged stored =\",Q,\" mC\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Charged stored = 2.50  mC\n"
+       ]
+      }
+     ],
+     "prompt_number": 20
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex20-pg33"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.20\n",
+      "import math\n",
+      "C=47.*10**-6;##in farads\n",
+      "W=4.;##energy in joules\n",
+      "V=math.sqrt(W/(0.5*C));\n",
+      "print'%s %.2f %s'%(\"Voltage tht be applied = \",V,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage tht be applied =  412.57  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 21
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex21-pg34"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.21\n",
+      "import math\n",
+      "E_o=8.85*10**-12;\n",
+      "E_r=5.4;\n",
+      "C=1*10**-9;\n",
+      "d=0.1*10**-3;\n",
+      "A=(C*d)/(E_o*E_r)*10**4;\n",
+      "print'%s %.2f %s'%(\"Required plate area = \",A,\" sq. cm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Required plate area =  20.92  sq. cm\n"
+       ]
+      }
+     ],
+     "prompt_number": 22
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex22-pg34"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.22\n",
+      "import math\n",
+      "E_o=8.85*10**-12;\n",
+      "E_r=4.5;\n",
+      "n=6.;##no. of plates\n",
+      "d=0.2*10**-3;##in meter\n",
+      "A=20.*10**-4;##in sq.meter\n",
+      "C=((E_o*E_r*(n-1.)*A)/d)*10**11;\n",
+      "print'%s %.2f %s'%(\"Capacitance = \",C,\" pF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance =  199.12  pF\n"
+       ]
+      }
+     ],
+     "prompt_number": 23
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex23-pg36"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.23\n",
+      "import math\n",
+      "print(\"Capacitance = 10000 pF of 10%%\"); "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance = 10000 pF of 10%%\n"
+       ]
+      }
+     ],
+     "prompt_number": 24
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex24-pg36"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.24\n",
+      "import math\n",
+      "print(\"Capacitance = 150 pF of 2%% tolerance at 100 V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance = 150 pF of 2%% tolerance at 100 V\n"
+       ]
+      }
+     ],
+     "prompt_number": 25
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex25-pg37"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.25\n",
+      "import math\n",
+      "C1=2.;##in nF\n",
+      "C2=4.;##in nF\n",
+      "C3=2.;\n",
+      "C4=4.;\n",
+      "C_a=C1+C2;\n",
+      "C_b=C_a*C3/(C_a+C3);\n",
+      "C_eff=C4+C_b;\n",
+      "print'%s %.2f %s'%(\"Capacitance = \",C_eff,\" nF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance =  5.50  nF\n"
+       ]
+      }
+     ],
+     "prompt_number": 26
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex26-pg37"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.26\n",
+      "import math\n",
+      "C=100.;##in uF\n",
+      "C_eff=C*C/(C+C);\n",
+      "print'%s %.2f %s'%(\"Two capacitors of  uF be in parallel used to make \",C_eff,\" uF capacitance\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Two capacitors of  uF be in parallel used to make  50.00  uF capacitance\n"
+       ]
+      }
+     ],
+     "prompt_number": 27
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex27-pg40"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.27\n",
+      "import math\n",
+      "L=600.*10**-3;##in H\n",
+      "I1=6.;##in A\n",
+      "I2=2.;##in A\n",
+      "dI=I1-I2;\n",
+      "dt=250.*10**-3;##in sec.\n",
+      "E=-L*(dI/dt);\n",
+      "print'%s %.2f %s'%(\"Induced voltage = \",E,\" volts\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Induced voltage =  -9.60  volts\n"
+       ]
+      }
+     ],
+     "prompt_number": 28
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex28-pg40"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.28\n",
+      "import math\n",
+      "E=2.5;##energy in joules\n",
+      "L=20.*10**-3;##in henry\n",
+      "I=math.sqrt(E/(0.5*L));\n",
+      "print'%s %.2f %s'%(\"Current = \",I,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current =  15.81  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 29
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex29-pg40"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.29\n",
+      "import math\n",
+      "u_o=12.57*10**-7;\n",
+      "u_r=500.;\n",
+      "A=15.*10**-4;##area of cross-section in sq. meters\n",
+      "l=20.*10**-2;##length\n",
+      "L=100.*10**-3;##in henry\n",
+      "n=math.sqrt((L*l)/(u_r*u_o*A));\n",
+      "print'%s %.2f %s'%(\"Inductor requires \",n,\" turns of wire\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Inductor requires  145.65  turns of wire\n"
+       ]
+      }
+     ],
+     "prompt_number": 30
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex30-pg42"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.30\n",
+      "import math\n",
+      "##L=(L1*L2)/(L1+L2)\n",
+      "L_eq=5.;##in millihenry\n",
+      "print'%s %.2f %s'%(\"Inductor of 10 mH wired in parallel would provide \",L_eq,\" mH\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Inductor of 10 mH wired in parallel would provide  5.00  mH\n"
+       ]
+      }
+     ],
+     "prompt_number": 31
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex31-pg42"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:2.31\n",
+      "import math\n",
+      "L1=60.;##in mH\n",
+      "L2=60.;##in mH\n",
+      "L_a=L1+L2;\n",
+      "L3=120.;##in mH\n",
+      "L_b=L_a*L3/(L_a+L3);\n",
+      "L4=50.;##in mH\n",
+      "L_eq=L4+L_b;\n",
+      "print'%s %.2f %s'%(\"Equivalent Inductance = \",L_eq,\" mH\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Equivalent Inductance =  110.00  mH\n"
+       ]
+      }
+     ],
+     "prompt_number": 32
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter3.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter3.ipynb
new file mode 100644
index 00000000..781f46d7
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter3.ipynb
@@ -0,0 +1,586 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:f23f1f12c5c13ad8f68288fd358f70344404a6fb4aa236ccdacf571419cfbed9"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter3-DC Circuits"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg49"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.1\n",
+      "import math\n",
+      "i1=1.5;\n",
+      "i2=2.7;##in amp.s\n",
+      "i5=i1+i2;\n",
+      "i4=3.3;\n",
+      "i3=i4+i5;\n",
+      "print'%s %.2f %s'%(\"Current b/w A & B = \",i5,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n Current I3 = \",i3,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current b/w A & B =  4.20  A\n",
+        "\n",
+        " Current I3 =  7.50  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg50"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.2\n",
+      "import math\n",
+      "E1=6.;\n",
+      "E2=3.;\n",
+      "V2=E1-E2;\n",
+      "V1=4.5;\n",
+      "E3=V1-E2;\n",
+      "print'%s %.2f %s'%(\"Value of V2 = \",V2,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n Value of E3 = \",E3,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of V2 =  3.00  A\n",
+        "\n",
+        " Value of E3 =  1.50  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg50"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.3\n",
+      "import math\n",
+      "V1=7.5;##in volts\n",
+      "V2=4.5;\n",
+      "V3=4.5;\n",
+      "r1=110.;##in ohms\n",
+      "r2=33.;\n",
+      "r3=22.;\n",
+      "i1=V1/r1;\n",
+      "i2=V2/r2;\n",
+      "i3=V3/r3;\n",
+      "print'%s %.2f %s'%(\"Current I1 = \",i1,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n Current I2 = \",i2,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n Current I3 = \",i3,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current I1 =  0.07  A\n",
+        "\n",
+        " Current I2 =  0.14  A\n",
+        "\n",
+        " Current I3 =  0.20  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg52"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.4\n",
+      "import math\n",
+      "V_in=5.;##in volts\n",
+      "r1=4000.;\n",
+      "r2=1000.;\n",
+      "r_p=r1*r2/(r1+r2);\n",
+      "V_out=V_in*(r2/(r1+r2));\n",
+      "V_out_p=V_in*(r_p/(r_p+r2));\n",
+      "print'%s %.2f %s'%(\"output voltage at no load = \",V_out,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n output voltage when loaded by 10kohms = \",V_out_p,\"A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "output voltage at no load =  1.00  A\n",
+        "\n",
+        " output voltage when loaded by 10kohms =  2.22 A\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg53"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.5\n",
+      "import math\n",
+      "I_in=5.;##in mA\n",
+      "R_m=100.;\n",
+      "I_m=1.;\n",
+      "R_s=R_m*I_m/(I_in-1.);\n",
+      "print'%s %.2f %s'%(\"Value of parallel shunt resistor = \",R_s,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of parallel shunt resistor =  25.00  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg54"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.6\n",
+      "import math\n",
+      "r1=100.;\n",
+      "r2=1000.;\n",
+      "R_x_1=(r2/r1)*10000.;\n",
+      "R_x_2=(r1/r2)*10.;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Range extends from \",R_x_2,\" ohms to\" and \" \",R_x_1,\" ohms\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Range extends from  1.00   100000.00  ohms \n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg55"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.7\n",
+      "import math\n",
+      "E=10.;\n",
+      "r1=500.;\n",
+      "r2=600.;\n",
+      "r3=500.;\n",
+      "r4=400.;\n",
+      "V_a=E*(r2/(r1+r2));\n",
+      "V_b=E*(r4/(r3+r4));\n",
+      "V_oc=V_a-V_b;\n",
+      "r=((r1*r2)/(r1+r2))+((r3*r4)/(r3+r4));\n",
+      "i=(V_oc/(r+100.))*1000.;\n",
+      "print'%s %.2f %s'%(\"Current flow in 100 ohm resistor = \",i,\" mA\" );"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current flow in 100 ohm resistor =  1.70  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg56"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.8\n",
+      "import math\n",
+      "I_sc=19.;##in uA\n",
+      "R=1000.;\n",
+      "R_m=968.;\n",
+      "V_out=I_sc*(R*R_m/(R+R_m));\n",
+      "print'%s %.2f %s'%(\"Voltage produced = \",V_out,\" uV\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage produced =  9345.53  uV\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg59"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.9\n",
+      "import math\n",
+      "c=1.*10**-6;##in farads\n",
+      "r=3.3*10**6;##in ohms\n",
+      "t=1.;##in sec.\n",
+      "V_s=9.;##in volts\n",
+      "V_c=V_s*(1.-math.e**(-t/(r*c)));\n",
+      "print'%s %.2f %s'%(\"Voltage produced = \",V_c,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage produced =  2.35  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex10-pg59"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.10\n",
+      "import math\n",
+      "c=100.*10**-6;##in farads\n",
+      "r=1.*10**3;##in ohms\n",
+      "t1=50.*10**-3;##in sec.\n",
+      "t2=100.*10**-3;##in sec.\n",
+      "V_s=350;##in volts\n",
+      "i1=(V_s/1000.)*(math.e**(-t1/(r*c)));\n",
+      "i2=(V_s/1000.)*(math.e**(-t2/(r*c)));\n",
+      "print'%s %.2f %s %.2f %s '%(\"Charging current after \",t1,\" sec\" and \"\",i1,\"  A\");\n",
+      "\n",
+      "print'%s %.2f %s %.2f %s '%(\"Charging current after \",t2,\" sec\" and \"\",i2,\"  A\")\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Charging current after  0.05  0.21   A \n",
+        "Charging current after  0.10  0.13   A \n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex11-pg61"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.11\n",
+      "import math\n",
+      "c=10.*10**-6;##in farads\n",
+      "r=47.*10**3;##in ohms\n",
+      "V_s=20.;##in volts\n",
+      "V_c=10.;\n",
+      "t=-c*r*math.log(V_c/V_s);\n",
+      "print'%s %.2f %s'%(\"time taken = \",t,\" sec.\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "time taken =  0.33  sec.\n"
+       ]
+      }
+     ],
+     "prompt_number": 11
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex12-pg61"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.12\n",
+      "import math\n",
+      "c=150.*10**-6;##in farads\n",
+      "r=2.*10**6;##in ohms\n",
+      "V_s=150.;##in volts\n",
+      "V_c=0.8187*V_s;\n",
+      "print'%s %.2f %s'%(\"Capacitor voltage = \",V_c,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitor voltage =  122.80  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex13-pg62"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.13\n",
+      "import math\n",
+      "r=10.*10**3;##in ohms\n",
+      "t=1.*10**-3;\n",
+      "c=(0.1*t/r)*10**9;\n",
+      "print'%s %.2f %s'%(\"Capacitor = \",c,\" nF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitor =  10.00  nF\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex14-pg63"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.14\n",
+      "import math\n",
+      "r=10.*10**3;##in ohms\n",
+      "t=1.*10**-3;\n",
+      "c=(10.*t/r)*10**6;\n",
+      "print'%s %.2f %s'%(\"Capacitor = \",c,\" uF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitor =  1.00  uF\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex15-pg64"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.15\n",
+      "import math\n",
+      "L=6.;##in henry\n",
+      "r=24.;##in ohms\n",
+      "t=0.1;##in sec.\n",
+      "V_s=12.;##in volts\n",
+      "i=(V_s/r)*(1.-math.e**(-t*r/L));\n",
+      "print'%s %.2f %s'%(\"current = \",i,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "current =  0.16  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex16-pg64"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.16\n",
+      "import math\n",
+      "V_s=5.;##in volts\n",
+      "V_c=0.8647*V_s;\n",
+      "print'%s %.2f %s'%(\"Inductor voltage = \",V_c,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Inductor voltage =  4.32  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 16
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter3_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter3_1.ipynb
new file mode 100644
index 00000000..781f46d7
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter3_1.ipynb
@@ -0,0 +1,586 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:f23f1f12c5c13ad8f68288fd358f70344404a6fb4aa236ccdacf571419cfbed9"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter3-DC Circuits"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg49"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.1\n",
+      "import math\n",
+      "i1=1.5;\n",
+      "i2=2.7;##in amp.s\n",
+      "i5=i1+i2;\n",
+      "i4=3.3;\n",
+      "i3=i4+i5;\n",
+      "print'%s %.2f %s'%(\"Current b/w A & B = \",i5,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n Current I3 = \",i3,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current b/w A & B =  4.20  A\n",
+        "\n",
+        " Current I3 =  7.50  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg50"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.2\n",
+      "import math\n",
+      "E1=6.;\n",
+      "E2=3.;\n",
+      "V2=E1-E2;\n",
+      "V1=4.5;\n",
+      "E3=V1-E2;\n",
+      "print'%s %.2f %s'%(\"Value of V2 = \",V2,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n Value of E3 = \",E3,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of V2 =  3.00  A\n",
+        "\n",
+        " Value of E3 =  1.50  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg50"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.3\n",
+      "import math\n",
+      "V1=7.5;##in volts\n",
+      "V2=4.5;\n",
+      "V3=4.5;\n",
+      "r1=110.;##in ohms\n",
+      "r2=33.;\n",
+      "r3=22.;\n",
+      "i1=V1/r1;\n",
+      "i2=V2/r2;\n",
+      "i3=V3/r3;\n",
+      "print'%s %.2f %s'%(\"Current I1 = \",i1,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n Current I2 = \",i2,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n Current I3 = \",i3,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current I1 =  0.07  A\n",
+        "\n",
+        " Current I2 =  0.14  A\n",
+        "\n",
+        " Current I3 =  0.20  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg52"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.4\n",
+      "import math\n",
+      "V_in=5.;##in volts\n",
+      "r1=4000.;\n",
+      "r2=1000.;\n",
+      "r_p=r1*r2/(r1+r2);\n",
+      "V_out=V_in*(r2/(r1+r2));\n",
+      "V_out_p=V_in*(r_p/(r_p+r2));\n",
+      "print'%s %.2f %s'%(\"output voltage at no load = \",V_out,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\n output voltage when loaded by 10kohms = \",V_out_p,\"A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "output voltage at no load =  1.00  A\n",
+        "\n",
+        " output voltage when loaded by 10kohms =  2.22 A\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg53"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.5\n",
+      "import math\n",
+      "I_in=5.;##in mA\n",
+      "R_m=100.;\n",
+      "I_m=1.;\n",
+      "R_s=R_m*I_m/(I_in-1.);\n",
+      "print'%s %.2f %s'%(\"Value of parallel shunt resistor = \",R_s,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Value of parallel shunt resistor =  25.00  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg54"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.6\n",
+      "import math\n",
+      "r1=100.;\n",
+      "r2=1000.;\n",
+      "R_x_1=(r2/r1)*10000.;\n",
+      "R_x_2=(r1/r2)*10.;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Range extends from \",R_x_2,\" ohms to\" and \" \",R_x_1,\" ohms\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Range extends from  1.00   100000.00  ohms \n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg55"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.7\n",
+      "import math\n",
+      "E=10.;\n",
+      "r1=500.;\n",
+      "r2=600.;\n",
+      "r3=500.;\n",
+      "r4=400.;\n",
+      "V_a=E*(r2/(r1+r2));\n",
+      "V_b=E*(r4/(r3+r4));\n",
+      "V_oc=V_a-V_b;\n",
+      "r=((r1*r2)/(r1+r2))+((r3*r4)/(r3+r4));\n",
+      "i=(V_oc/(r+100.))*1000.;\n",
+      "print'%s %.2f %s'%(\"Current flow in 100 ohm resistor = \",i,\" mA\" );"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current flow in 100 ohm resistor =  1.70  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg56"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.8\n",
+      "import math\n",
+      "I_sc=19.;##in uA\n",
+      "R=1000.;\n",
+      "R_m=968.;\n",
+      "V_out=I_sc*(R*R_m/(R+R_m));\n",
+      "print'%s %.2f %s'%(\"Voltage produced = \",V_out,\" uV\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage produced =  9345.53  uV\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg59"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.9\n",
+      "import math\n",
+      "c=1.*10**-6;##in farads\n",
+      "r=3.3*10**6;##in ohms\n",
+      "t=1.;##in sec.\n",
+      "V_s=9.;##in volts\n",
+      "V_c=V_s*(1.-math.e**(-t/(r*c)));\n",
+      "print'%s %.2f %s'%(\"Voltage produced = \",V_c,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage produced =  2.35  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex10-pg59"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.10\n",
+      "import math\n",
+      "c=100.*10**-6;##in farads\n",
+      "r=1.*10**3;##in ohms\n",
+      "t1=50.*10**-3;##in sec.\n",
+      "t2=100.*10**-3;##in sec.\n",
+      "V_s=350;##in volts\n",
+      "i1=(V_s/1000.)*(math.e**(-t1/(r*c)));\n",
+      "i2=(V_s/1000.)*(math.e**(-t2/(r*c)));\n",
+      "print'%s %.2f %s %.2f %s '%(\"Charging current after \",t1,\" sec\" and \"\",i1,\"  A\");\n",
+      "\n",
+      "print'%s %.2f %s %.2f %s '%(\"Charging current after \",t2,\" sec\" and \"\",i2,\"  A\")\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Charging current after  0.05  0.21   A \n",
+        "Charging current after  0.10  0.13   A \n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex11-pg61"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.11\n",
+      "import math\n",
+      "c=10.*10**-6;##in farads\n",
+      "r=47.*10**3;##in ohms\n",
+      "V_s=20.;##in volts\n",
+      "V_c=10.;\n",
+      "t=-c*r*math.log(V_c/V_s);\n",
+      "print'%s %.2f %s'%(\"time taken = \",t,\" sec.\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "time taken =  0.33  sec.\n"
+       ]
+      }
+     ],
+     "prompt_number": 11
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex12-pg61"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.12\n",
+      "import math\n",
+      "c=150.*10**-6;##in farads\n",
+      "r=2.*10**6;##in ohms\n",
+      "V_s=150.;##in volts\n",
+      "V_c=0.8187*V_s;\n",
+      "print'%s %.2f %s'%(\"Capacitor voltage = \",V_c,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitor voltage =  122.80  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex13-pg62"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.13\n",
+      "import math\n",
+      "r=10.*10**3;##in ohms\n",
+      "t=1.*10**-3;\n",
+      "c=(0.1*t/r)*10**9;\n",
+      "print'%s %.2f %s'%(\"Capacitor = \",c,\" nF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitor =  10.00  nF\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex14-pg63"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.14\n",
+      "import math\n",
+      "r=10.*10**3;##in ohms\n",
+      "t=1.*10**-3;\n",
+      "c=(10.*t/r)*10**6;\n",
+      "print'%s %.2f %s'%(\"Capacitor = \",c,\" uF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitor =  1.00  uF\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex15-pg64"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.15\n",
+      "import math\n",
+      "L=6.;##in henry\n",
+      "r=24.;##in ohms\n",
+      "t=0.1;##in sec.\n",
+      "V_s=12.;##in volts\n",
+      "i=(V_s/r)*(1.-math.e**(-t*r/L));\n",
+      "print'%s %.2f %s'%(\"current = \",i,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "current =  0.16  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex16-pg64"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:3.16\n",
+      "import math\n",
+      "V_s=5.;##in volts\n",
+      "V_c=0.8647*V_s;\n",
+      "print'%s %.2f %s'%(\"Inductor voltage = \",V_c,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Inductor voltage =  4.32  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 16
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter4.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter4.ipynb
new file mode 100644
index 00000000..3272c4a7
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter4.ipynb
@@ -0,0 +1,586 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:348e913cbcf303bd30e2a0fca661cdd75a027447d5cfac9117537a9c7cb2c1c0"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter4-Alternating voltage and current"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg70"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.1\n",
+      "import math\n",
+      "V_m=20.;##in volts\n",
+      "f=50.;##in Hz\n",
+      "t1=2.5*10**-3;\n",
+      "t2=15.*10**-3;\n",
+      "V1=V_m*math.sin(2.*math.pi*f*t1);\n",
+      "V2=V_m*math.sin(2.*math.pi*f*t2);\n",
+      "print'%s %.2f %s'%(\"Voltage at 2.5ms = \",V1,\" V\");\n",
+      "print'%s %.2f %s'%(\"\\n Voltage at 15ms = \",V2,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage at 2.5ms =  14.14  V\n",
+        "\n",
+        " Voltage at 15ms =  -20.00  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg70"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.2\n",
+      "import math\n",
+      "f=400.;##in Hz\n",
+      "T=1./f;\n",
+      "print'%s %.2f %s %.4f %s '%(\"Time period of \",f,\" Hz\" and \" waveform = \",T,\" sec\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Time period of  400.00  waveform =  0.0025  sec \n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg71"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.3\n",
+      "import math\n",
+      "T=40.*10**-3;##in Hz\n",
+      "f=1./T;\n",
+      "print'%s %.2f %s'%(\"Frequency of 40 ms waveform = \",f,\" Hz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Frequency of 40 ms waveform =  25.00  Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg71"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.4\n",
+      "import math\n",
+      "V_rms=240.;##in Volts\n",
+      "V_pk=1.414*V_rms;\n",
+      "print'%s %.2f %s %.2f %s' %(\"Peak voltage of \",V_rms,\" V RMS\" and \" voltage = \",V_pk,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Peak voltage of  240.00  voltage =  339.36  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg71"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.5\n",
+      "import math\n",
+      "I_pk=50.*10**-3;##in Amps\n",
+      "I_rms=0.353*I_pk;\n",
+      "print'%s %.2f %s'%(\"RMS current of 50mA peak current = \",I_rms,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "RMS current of 50mA peak current =  0.02  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg72"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.6\n",
+      "import math\n",
+      "V=10.;##pk-pk voltage\n",
+      "r=1000.;##ohms\n",
+      "I_pk=V/r;##in Amps\n",
+      "I_rms=0.353*I_pk*1000.;##milliamps\n",
+      "print'%s %.2f %s'%(\"RMS current of 10V peak-peak voltage = \",I_rms,\" mA\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "RMS current of 10V peak-peak voltage =  3.53  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg73"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.7\n",
+      "import math\n",
+      "c=1.*10**-6;\n",
+      "f1=100.;\n",
+      "f2=10000.;\n",
+      "X_c1=1./(2.*math.pi*f1*c);\n",
+      "X_c2=1./(2.*math.pi*f2*c);\n",
+      "print'%s %.2f %s'%(\"Reactance at 100Hz = \",X_c1,\" mA\");\n",
+      "print'%s %.2f %s'%(\"\\n Reactance at 10kHz = \",X_c2,\" mA\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance at 100Hz =  1591.55  mA\n",
+        "\n",
+        " Reactance at 10kHz =  15.92  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg73"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.8\n",
+      "import math\n",
+      "V=240.;\n",
+      "c=100.*10**-9;\n",
+      "f=50.;\n",
+      "X_c=1./(2.*math.pi*f*c);\n",
+      "I_c=V/X_c;\n",
+      "print'%s %.2f %s'%(\"Current flow = \",I_c,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current flow =  0.01  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg74"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.9\n",
+      "import math\n",
+      "L=1.*10**-3;\n",
+      "f1=100.;\n",
+      "f2=10000.;\n",
+      "X_L1=(2.*math.pi*f1*L);\n",
+      "X_L2=(2.*math.pi*f2*L);\n",
+      "print'%s %.2f %s'%(\"Reactance at 100Hz = \",X_L1,\" ohm\");\n",
+      "print'%s %.2f %s'%(\"\\nReactance at 10kHz = \",X_L2,\" ohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance at 100Hz =  0.63  ohm\n",
+        "\n",
+        "Reactance at 10kHz =  62.83  ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex10-pg74"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.10\n",
+      "import math\n",
+      "L=1.*10**-3;\n",
+      "f1=100.;\n",
+      "f2=10000.;\n",
+      "X_L1=(2.*math.pi*f1*L);\n",
+      "X_L2=(2.*math.pi*f2*L);\n",
+      "print'%s %.2f %s'%(\"Reactance at 100Hz = \",X_L1,\" ohm\");\n",
+      "print'%s %.2f %s'%(\"\\nReactance at 10kHz = \",X_L2,\" ohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance at 100Hz =  0.63  ohm\n",
+        "\n",
+        "Reactance at 10kHz =  62.83  ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex11-pg74"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.11\n",
+      "import math\n",
+      "C=2.*10**-6;\n",
+      "f=400.;\n",
+      "V=115.;\n",
+      "X_C=1./(2.*math.pi*f*C);\n",
+      "r=199.;\n",
+      "z=math.sqrt(r**2+X_C**2);\n",
+      "I_s=V/z;\n",
+      "print'%s %.2f %s'%(\"Reactance = \",X_C,\" ohm\");\n",
+      "print'%s %.2f %s'%(\"\\n Current = \",I_s,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance =  198.94  ohm\n",
+        "\n",
+        " Current =  0.41  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 11
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex12-pg75"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.12\n",
+      "import math\n",
+      "L=150.*10**-3;\n",
+      "f=400.;\n",
+      "V=115.;\n",
+      "X_L=(2.*math.pi*f*L);\n",
+      "r=250.;\n",
+      "z=math.sqrt(r**2+X_L**2);\n",
+      "I_s=V/z;\n",
+      "print'%s %.2f %s'%(\"Reactance = \",X_L,\" ohm\");\n",
+      "print'%s %.2f %s'%(\"\\n Current = \",I_s,\" A\")"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance =  376.99  ohm\n",
+        "\n",
+        " Current =  0.25  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex13-pg78"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.13\n",
+      "import math\n",
+      "L=100.*10**-3;\n",
+      "f=400.;\n",
+      "C=(1./(4.*math.pi*math.pi*f*f*L))*10**6;\n",
+      "print'%s %.2f %s'%(\"Capacitance required = \",C,\" uF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance required =  1.58  uF\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex14-pg78"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.14\n",
+      "import math\n",
+      "L=20.*10**-3;\n",
+      "f=2000.;\n",
+      "V=1.5;\n",
+      "r=100.;\n",
+      "C=10.*10**-9;\n",
+      "X_L=(2.*math.pi*f*L);\n",
+      "X_C=1./(2.*math.pi*f*C);\n",
+      "z=math.sqrt(r**2+(X_L-X_C)**2);\n",
+      "i=V/z;\n",
+      "v=i*r;\n",
+      "print'%s %.4f %s'%(\"Current supplied = \",i,\" mA\");\n",
+      "print'%s %.2f %s'%(\"\\nVoltage developed = \",v,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current supplied =  0.0002  mA\n",
+        "\n",
+        "Voltage developed =  0.02  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex15-pg81"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.15\n",
+      "import math\n",
+      "N_s=120.;\n",
+      "V_p=220.;\n",
+      "N_p=2000.;\n",
+      "V_s=N_s*V_p/N_p;\n",
+      "print'%s %.2f %s'%(\"Secondry voltage = \",V_s,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Secondry voltage =  13.20  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex16-pg81"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.16\n",
+      "import math\n",
+      "V_p=200.;\n",
+      "V_s=10.;\n",
+      "N_p=1200.;\n",
+      "N_s=N_p*V_s/V_p;\n",
+      "i_s=2.5;\n",
+      "i_p=N_s*i_s/N_p;\n",
+      "print'%s %.2f %s'%(\"Secondry turns =  \",N_s,\"\");\n",
+      "print'%s %.2f %s'%(\"\\nprimary current = \",i_p,\"A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Secondry turns =   60.00 \n",
+        "\n",
+        "primary current =  0.12 A\n"
+       ]
+      }
+     ],
+     "prompt_number": 16
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter4_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter4_1.ipynb
new file mode 100644
index 00000000..3272c4a7
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter4_1.ipynb
@@ -0,0 +1,586 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:348e913cbcf303bd30e2a0fca661cdd75a027447d5cfac9117537a9c7cb2c1c0"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter4-Alternating voltage and current"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg70"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.1\n",
+      "import math\n",
+      "V_m=20.;##in volts\n",
+      "f=50.;##in Hz\n",
+      "t1=2.5*10**-3;\n",
+      "t2=15.*10**-3;\n",
+      "V1=V_m*math.sin(2.*math.pi*f*t1);\n",
+      "V2=V_m*math.sin(2.*math.pi*f*t2);\n",
+      "print'%s %.2f %s'%(\"Voltage at 2.5ms = \",V1,\" V\");\n",
+      "print'%s %.2f %s'%(\"\\n Voltage at 15ms = \",V2,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Voltage at 2.5ms =  14.14  V\n",
+        "\n",
+        " Voltage at 15ms =  -20.00  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg70"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.2\n",
+      "import math\n",
+      "f=400.;##in Hz\n",
+      "T=1./f;\n",
+      "print'%s %.2f %s %.4f %s '%(\"Time period of \",f,\" Hz\" and \" waveform = \",T,\" sec\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Time period of  400.00  waveform =  0.0025  sec \n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg71"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.3\n",
+      "import math\n",
+      "T=40.*10**-3;##in Hz\n",
+      "f=1./T;\n",
+      "print'%s %.2f %s'%(\"Frequency of 40 ms waveform = \",f,\" Hz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Frequency of 40 ms waveform =  25.00  Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg71"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.4\n",
+      "import math\n",
+      "V_rms=240.;##in Volts\n",
+      "V_pk=1.414*V_rms;\n",
+      "print'%s %.2f %s %.2f %s' %(\"Peak voltage of \",V_rms,\" V RMS\" and \" voltage = \",V_pk,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Peak voltage of  240.00  voltage =  339.36  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg71"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.5\n",
+      "import math\n",
+      "I_pk=50.*10**-3;##in Amps\n",
+      "I_rms=0.353*I_pk;\n",
+      "print'%s %.2f %s'%(\"RMS current of 50mA peak current = \",I_rms,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "RMS current of 50mA peak current =  0.02  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg72"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.6\n",
+      "import math\n",
+      "V=10.;##pk-pk voltage\n",
+      "r=1000.;##ohms\n",
+      "I_pk=V/r;##in Amps\n",
+      "I_rms=0.353*I_pk*1000.;##milliamps\n",
+      "print'%s %.2f %s'%(\"RMS current of 10V peak-peak voltage = \",I_rms,\" mA\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "RMS current of 10V peak-peak voltage =  3.53  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg73"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.7\n",
+      "import math\n",
+      "c=1.*10**-6;\n",
+      "f1=100.;\n",
+      "f2=10000.;\n",
+      "X_c1=1./(2.*math.pi*f1*c);\n",
+      "X_c2=1./(2.*math.pi*f2*c);\n",
+      "print'%s %.2f %s'%(\"Reactance at 100Hz = \",X_c1,\" mA\");\n",
+      "print'%s %.2f %s'%(\"\\n Reactance at 10kHz = \",X_c2,\" mA\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance at 100Hz =  1591.55  mA\n",
+        "\n",
+        " Reactance at 10kHz =  15.92  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg73"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.8\n",
+      "import math\n",
+      "V=240.;\n",
+      "c=100.*10**-9;\n",
+      "f=50.;\n",
+      "X_c=1./(2.*math.pi*f*c);\n",
+      "I_c=V/X_c;\n",
+      "print'%s %.2f %s'%(\"Current flow = \",I_c,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current flow =  0.01  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg74"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.9\n",
+      "import math\n",
+      "L=1.*10**-3;\n",
+      "f1=100.;\n",
+      "f2=10000.;\n",
+      "X_L1=(2.*math.pi*f1*L);\n",
+      "X_L2=(2.*math.pi*f2*L);\n",
+      "print'%s %.2f %s'%(\"Reactance at 100Hz = \",X_L1,\" ohm\");\n",
+      "print'%s %.2f %s'%(\"\\nReactance at 10kHz = \",X_L2,\" ohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance at 100Hz =  0.63  ohm\n",
+        "\n",
+        "Reactance at 10kHz =  62.83  ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex10-pg74"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.10\n",
+      "import math\n",
+      "L=1.*10**-3;\n",
+      "f1=100.;\n",
+      "f2=10000.;\n",
+      "X_L1=(2.*math.pi*f1*L);\n",
+      "X_L2=(2.*math.pi*f2*L);\n",
+      "print'%s %.2f %s'%(\"Reactance at 100Hz = \",X_L1,\" ohm\");\n",
+      "print'%s %.2f %s'%(\"\\nReactance at 10kHz = \",X_L2,\" ohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance at 100Hz =  0.63  ohm\n",
+        "\n",
+        "Reactance at 10kHz =  62.83  ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 10
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex11-pg74"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.11\n",
+      "import math\n",
+      "C=2.*10**-6;\n",
+      "f=400.;\n",
+      "V=115.;\n",
+      "X_C=1./(2.*math.pi*f*C);\n",
+      "r=199.;\n",
+      "z=math.sqrt(r**2+X_C**2);\n",
+      "I_s=V/z;\n",
+      "print'%s %.2f %s'%(\"Reactance = \",X_C,\" ohm\");\n",
+      "print'%s %.2f %s'%(\"\\n Current = \",I_s,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance =  198.94  ohm\n",
+        "\n",
+        " Current =  0.41  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 11
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex12-pg75"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.12\n",
+      "import math\n",
+      "L=150.*10**-3;\n",
+      "f=400.;\n",
+      "V=115.;\n",
+      "X_L=(2.*math.pi*f*L);\n",
+      "r=250.;\n",
+      "z=math.sqrt(r**2+X_L**2);\n",
+      "I_s=V/z;\n",
+      "print'%s %.2f %s'%(\"Reactance = \",X_L,\" ohm\");\n",
+      "print'%s %.2f %s'%(\"\\n Current = \",I_s,\" A\")"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Reactance =  376.99  ohm\n",
+        "\n",
+        " Current =  0.25  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 12
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex13-pg78"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.13\n",
+      "import math\n",
+      "L=100.*10**-3;\n",
+      "f=400.;\n",
+      "C=(1./(4.*math.pi*math.pi*f*f*L))*10**6;\n",
+      "print'%s %.2f %s'%(\"Capacitance required = \",C,\" uF\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Capacitance required =  1.58  uF\n"
+       ]
+      }
+     ],
+     "prompt_number": 13
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex14-pg78"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.14\n",
+      "import math\n",
+      "L=20.*10**-3;\n",
+      "f=2000.;\n",
+      "V=1.5;\n",
+      "r=100.;\n",
+      "C=10.*10**-9;\n",
+      "X_L=(2.*math.pi*f*L);\n",
+      "X_C=1./(2.*math.pi*f*C);\n",
+      "z=math.sqrt(r**2+(X_L-X_C)**2);\n",
+      "i=V/z;\n",
+      "v=i*r;\n",
+      "print'%s %.4f %s'%(\"Current supplied = \",i,\" mA\");\n",
+      "print'%s %.2f %s'%(\"\\nVoltage developed = \",v,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Current supplied =  0.0002  mA\n",
+        "\n",
+        "Voltage developed =  0.02  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 14
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex15-pg81"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.15\n",
+      "import math\n",
+      "N_s=120.;\n",
+      "V_p=220.;\n",
+      "N_p=2000.;\n",
+      "V_s=N_s*V_p/N_p;\n",
+      "print'%s %.2f %s'%(\"Secondry voltage = \",V_s,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Secondry voltage =  13.20  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 15
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex16-pg81"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:4.16\n",
+      "import math\n",
+      "V_p=200.;\n",
+      "V_s=10.;\n",
+      "N_p=1200.;\n",
+      "N_s=N_p*V_s/V_p;\n",
+      "i_s=2.5;\n",
+      "i_p=N_s*i_s/N_p;\n",
+      "print'%s %.2f %s'%(\"Secondry turns =  \",N_s,\"\");\n",
+      "print'%s %.2f %s'%(\"\\nprimary current = \",i_p,\"A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Secondry turns =   60.00 \n",
+        "\n",
+        "primary current =  0.12 A\n"
+       ]
+      }
+     ],
+     "prompt_number": 16
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter5.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter5.ipynb
new file mode 100644
index 00000000..b0c877d6
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter5.ipynb
@@ -0,0 +1,303 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:55165db38b61e651606f5e47e79ec33dbbcd65dc316fccbc779cf43ddfeefa00"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter5-Semiconductors"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg90"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.1\n",
+      "import math\n",
+      "v1=0.43;##volts\n",
+      "i1=2.5*10**-3;##in Amps.\n",
+      "v2=0.65;##volts\n",
+      "i2=7.4*10**-3;##in Amps.\n",
+      "r1=v1/i1;\n",
+      "r2=v2/i2;\n",
+      "print'%s %.2f %s'%(\"Diode resistance for 2.5A current = \",r1,\" ohms\");\n",
+      "print'%s %.2f %s'%(\"\\n Diode resistance for 0.65V = \",r2,\" ohms\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Diode resistance for 2.5A current =  172.00  ohms\n",
+        "\n",
+        " Diode resistance for 0.65V =  87.84  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg95"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.2\n",
+      "import math\n",
+      "i=15.*10**-3;\n",
+      "R=(21.-2.2)/i;\n",
+      "v=18.8;##in volts\n",
+      "P=i*v*1000.;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Resistor \",R,\" ohms\" and \" of \",P,\" mW\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor  1253.33  of  282.00  mW \n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg96"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.3\n",
+      "import math\n",
+      "I_c=30.;##in mA\n",
+      "I_b=0.6;\n",
+      "I_e=I_c+I_b;\n",
+      "hfe=I_c/I_b;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Emitter current = \",I_e,\" ohms\" and    \"hfe = \",hfe,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Emitter current =  30.60 hfe =  50.00  \n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg100"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.4\n",
+      "import math\n",
+      "I_c=30.;##in mA\n",
+      "I_b=0.6;\n",
+      "I_e=I_c+I_b;\n",
+      "hfe=I_c/I_b;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Emitter current = \",I_e,\" ohms\" and    \"hfe = \",hfe,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Emitter current =  30.60 hfe =  50.00  \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg100"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.5\n",
+      "import math\n",
+      "I_e=98.;##in mA\n",
+      "I_c=97.;\n",
+      "I_b=I_e-I_c;\n",
+      "hfe=I_c/I_b;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Emitter current = \",I_b,\" ohms\" and    \"hfe = \",hfe,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Emitter current =  1.00 hfe =  97.00  \n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg100"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.6\n",
+      "import math\n",
+      "I_c=1.5;##in A\n",
+      "I_b=50.*10**-3;\n",
+      "V_ce=6.;##volts\n",
+      "hfe=I_c/I_b;\n",
+      "P=I_c*V_ce;\n",
+      "print'%s %.2f %s'%(\"hfe required = \",hfe,\"\");\n",
+      "print'%s %.2f %s'%(\"\\n collector power dissipation = \",P,\" W\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "hfe required =  30.00 \n",
+        "\n",
+        " collector power dissipation =  9.00  W\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg102"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.7\n",
+      "import math\n",
+      "hfe=200.\n",
+      "I_c=10.*10**-3;\n",
+      "dI_b=I_c/hfe;\n",
+      "dI_c=hfe*dI_b/100.;\n",
+      "print'%s %.4f %s'%(\"Base current = \",dI_b,\" A \");\n",
+      "print'%s %.4f %s'%(\"\\nChange in collector current = \",dI_c,\" mA\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Base current =  0.0001  A \n",
+        "\n",
+        "Change in collector current =  0.0001  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg104"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.8\n",
+      "import math\n",
+      "dV_gs=0.025;\n",
+      "g_fs=-0.5;\n",
+      "dI_d=dV_gs*g_fs;##in mA\n",
+      "I_d1=50.*10**-3;##in mA\n",
+      "I_d2=dI_d+I_d1;\n",
+      "print'%s %.2f %s'%(\"Change in drain current = \",dI_d,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\nNew value of drain current = \",I_d2,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Change in drain current =  -0.01  A\n",
+        "\n",
+        "New value of drain current =  0.04  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter5_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter5_1.ipynb
new file mode 100644
index 00000000..b0c877d6
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter5_1.ipynb
@@ -0,0 +1,303 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:55165db38b61e651606f5e47e79ec33dbbcd65dc316fccbc779cf43ddfeefa00"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter5-Semiconductors"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg90"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.1\n",
+      "import math\n",
+      "v1=0.43;##volts\n",
+      "i1=2.5*10**-3;##in Amps.\n",
+      "v2=0.65;##volts\n",
+      "i2=7.4*10**-3;##in Amps.\n",
+      "r1=v1/i1;\n",
+      "r2=v2/i2;\n",
+      "print'%s %.2f %s'%(\"Diode resistance for 2.5A current = \",r1,\" ohms\");\n",
+      "print'%s %.2f %s'%(\"\\n Diode resistance for 0.65V = \",r2,\" ohms\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Diode resistance for 2.5A current =  172.00  ohms\n",
+        "\n",
+        " Diode resistance for 0.65V =  87.84  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg95"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.2\n",
+      "import math\n",
+      "i=15.*10**-3;\n",
+      "R=(21.-2.2)/i;\n",
+      "v=18.8;##in volts\n",
+      "P=i*v*1000.;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Resistor \",R,\" ohms\" and \" of \",P,\" mW\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Resistor  1253.33  of  282.00  mW \n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg96"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.3\n",
+      "import math\n",
+      "I_c=30.;##in mA\n",
+      "I_b=0.6;\n",
+      "I_e=I_c+I_b;\n",
+      "hfe=I_c/I_b;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Emitter current = \",I_e,\" ohms\" and    \"hfe = \",hfe,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Emitter current =  30.60 hfe =  50.00  \n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg100"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.4\n",
+      "import math\n",
+      "I_c=30.;##in mA\n",
+      "I_b=0.6;\n",
+      "I_e=I_c+I_b;\n",
+      "hfe=I_c/I_b;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Emitter current = \",I_e,\" ohms\" and    \"hfe = \",hfe,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Emitter current =  30.60 hfe =  50.00  \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg100"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.5\n",
+      "import math\n",
+      "I_e=98.;##in mA\n",
+      "I_c=97.;\n",
+      "I_b=I_e-I_c;\n",
+      "hfe=I_c/I_b;\n",
+      "print'%s %.2f %s %.2f %s '%(\"Emitter current = \",I_b,\" ohms\" and    \"hfe = \",hfe,\"\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Emitter current =  1.00 hfe =  97.00  \n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg100"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.6\n",
+      "import math\n",
+      "I_c=1.5;##in A\n",
+      "I_b=50.*10**-3;\n",
+      "V_ce=6.;##volts\n",
+      "hfe=I_c/I_b;\n",
+      "P=I_c*V_ce;\n",
+      "print'%s %.2f %s'%(\"hfe required = \",hfe,\"\");\n",
+      "print'%s %.2f %s'%(\"\\n collector power dissipation = \",P,\" W\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "hfe required =  30.00 \n",
+        "\n",
+        " collector power dissipation =  9.00  W\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg102"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.7\n",
+      "import math\n",
+      "hfe=200.\n",
+      "I_c=10.*10**-3;\n",
+      "dI_b=I_c/hfe;\n",
+      "dI_c=hfe*dI_b/100.;\n",
+      "print'%s %.4f %s'%(\"Base current = \",dI_b,\" A \");\n",
+      "print'%s %.4f %s'%(\"\\nChange in collector current = \",dI_c,\" mA\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Base current =  0.0001  A \n",
+        "\n",
+        "Change in collector current =  0.0001  mA\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg104"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:5.8\n",
+      "import math\n",
+      "dV_gs=0.025;\n",
+      "g_fs=-0.5;\n",
+      "dI_d=dV_gs*g_fs;##in mA\n",
+      "I_d1=50.*10**-3;##in mA\n",
+      "I_d2=dI_d+I_d1;\n",
+      "print'%s %.2f %s'%(\"Change in drain current = \",dI_d,\" A\");\n",
+      "print'%s %.2f %s'%(\"\\nNew value of drain current = \",I_d2,\" A\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Change in drain current =  -0.01  A\n",
+        "\n",
+        "New value of drain current =  0.04  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter7.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter7.ipynb
new file mode 100644
index 00000000..e8e27f4f
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter7.ipynb
@@ -0,0 +1,343 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:2256e43b0ccc4d0255b5cf781a9c914f08adb93f8f0caa254bf09c9ef401f2ba"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter7-Amplifiers"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg132"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.1\n",
+      "import math\n",
+      "I_i=4.;\n",
+      "V_o=2.;\n",
+      "V_i=50.*10**-3;\n",
+      "I_o=200.;\n",
+      "A_v=V_o/V_i;\n",
+      "A_i=I_o/I_i;\n",
+      "print'%s %.2f %s'%(\" Volt gain =  \",A_v,\"\"); \n",
+      "print'%s %.2f %s'%(\"\\n Current gain =  \",A_i,\"\"); \n",
+      "print'%s %.2f %s'%(\"\\n Power gain =  \",A_i*A_v,\"\");   \n",
+      "                     "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " Volt gain =   40.00 \n",
+        "\n",
+        " Current gain =   50.00 \n",
+        "\n",
+        " Power gain =   2000.00 \n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg136"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.2\n",
+      "import math\n",
+      "A_v_max=35.;\n",
+      "A_v_cutoff=0.707*A_v_max;\n",
+      "print'%s %.2f %s'%(\" Mid-band Volt gain =  \",A_v_cutoff,\"\"); \n",
+      "print(\"\\n upper freq = 590Hz & lower freq = 57Hz\"); \n",
+      "  \n",
+      "                     "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " Mid-band Volt gain =   24.74 \n",
+        "\n",
+        " upper freq = 590Hz & lower freq = 57Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg137"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.3\n",
+      "import math\n",
+      "A=50.;\n",
+      "b=0.1;\n",
+      "G=A/(1.+b*A);\n",
+      "print'%s %.2f %s'%(\" overall Volt gain =  \",G,\"\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " overall Volt gain =   8.33 \n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg138"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.4\n",
+      "import math\n",
+      "A=50.;\n",
+      "A_new=A+0.2*A;\n",
+      "b=0.1;\n",
+      "G=A_new/(1.+b*A_new);\n",
+      "dG=8.33-G/8.33;\n",
+      "print'%s %.2f %s'%(\" percentage change in overall volt gain = \",dG,\"\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " percentage change in overall volt gain =  7.30 \n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg138"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.5\n",
+      "import math\n",
+      "A=100.;\n",
+      "G=20.;\n",
+      "b=(1./G)-(1./A);\n",
+      "print'%s %.2f %s'%(\"amount of feedback required =  \",b,\"\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "amount of feedback required =   0.04 \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg143"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.6\n",
+      "import math\n",
+      "h_oe=80.*10**-6;\n",
+      "R_l=10000.;\n",
+      "I_f=320.*10**-6;\n",
+      "I_c=I_f*(1./h_oe)/((1./h_oe)+R_l);\n",
+      "V_out=I_c*R_l;\n",
+      "print'%s %.2f %s'%(\"Output voltage = \",V_out,\" V\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Output voltage =  1.78  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg144"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.7\n",
+      "import math\n",
+      "b=200.;\n",
+      "h_ie=1.5*10**3;##in ohms\n",
+      "h_fe=150.;\n",
+      "R_l=b*h_ie/h_fe;\n",
+      "print'%s %.2f %s'%(\"Load resistance = \",R_l,\" ohms\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Load resistance =  2000.00  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg145"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.8\n",
+      "import math\n",
+      "V=9.;\n",
+      "V_e=2.;\n",
+      "R4=1000.;\n",
+      "V_b=2.6;\n",
+      "R2=33.*10**3;\n",
+      "R1=68000.;\n",
+      "I_r1=(V-V_b)/R1;\n",
+      "R3=2.2*10**3;\n",
+      "I_b=15.1*10**-6;\n",
+      "I_c=2.0151*10**-3;\n",
+      "V_r3=I_c*R3;\n",
+      "V_c=V-V_r3;\n",
+      "print'%s %.2f %s'%(\"Collector voltage = \",V_c,\" V\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Collector voltage =  4.57  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg147"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.9\n",
+      "import math\n",
+      "V_pp=14.8-3.3;\n",
+      "print(\"Collector quiescent voltage = 9.2 V\"); \n",
+      "print(\"\\nCollector quiescent current = 7.3mA\"); \n",
+      "print'%s %.2f %s'%(\"\\nOutput peak-peak voltage = \",V_pp,\" V\"); "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Collector quiescent voltage = 9.2 V\n",
+        "\n",
+        "Collector quiescent current = 7.3mA\n",
+        "\n",
+        "Output peak-peak voltage =  11.50  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter7_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter7_1.ipynb
new file mode 100644
index 00000000..e8e27f4f
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter7_1.ipynb
@@ -0,0 +1,343 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:2256e43b0ccc4d0255b5cf781a9c914f08adb93f8f0caa254bf09c9ef401f2ba"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter7-Amplifiers"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg132"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.1\n",
+      "import math\n",
+      "I_i=4.;\n",
+      "V_o=2.;\n",
+      "V_i=50.*10**-3;\n",
+      "I_o=200.;\n",
+      "A_v=V_o/V_i;\n",
+      "A_i=I_o/I_i;\n",
+      "print'%s %.2f %s'%(\" Volt gain =  \",A_v,\"\"); \n",
+      "print'%s %.2f %s'%(\"\\n Current gain =  \",A_i,\"\"); \n",
+      "print'%s %.2f %s'%(\"\\n Power gain =  \",A_i*A_v,\"\");   \n",
+      "                     "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " Volt gain =   40.00 \n",
+        "\n",
+        " Current gain =   50.00 \n",
+        "\n",
+        " Power gain =   2000.00 \n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg136"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.2\n",
+      "import math\n",
+      "A_v_max=35.;\n",
+      "A_v_cutoff=0.707*A_v_max;\n",
+      "print'%s %.2f %s'%(\" Mid-band Volt gain =  \",A_v_cutoff,\"\"); \n",
+      "print(\"\\n upper freq = 590Hz & lower freq = 57Hz\"); \n",
+      "  \n",
+      "                     "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " Mid-band Volt gain =   24.74 \n",
+        "\n",
+        " upper freq = 590Hz & lower freq = 57Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg137"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.3\n",
+      "import math\n",
+      "A=50.;\n",
+      "b=0.1;\n",
+      "G=A/(1.+b*A);\n",
+      "print'%s %.2f %s'%(\" overall Volt gain =  \",G,\"\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " overall Volt gain =   8.33 \n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg138"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.4\n",
+      "import math\n",
+      "A=50.;\n",
+      "A_new=A+0.2*A;\n",
+      "b=0.1;\n",
+      "G=A_new/(1.+b*A_new);\n",
+      "dG=8.33-G/8.33;\n",
+      "print'%s %.2f %s'%(\" percentage change in overall volt gain = \",dG,\"\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " percentage change in overall volt gain =  7.30 \n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg138"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.5\n",
+      "import math\n",
+      "A=100.;\n",
+      "G=20.;\n",
+      "b=(1./G)-(1./A);\n",
+      "print'%s %.2f %s'%(\"amount of feedback required =  \",b,\"\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "amount of feedback required =   0.04 \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg143"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.6\n",
+      "import math\n",
+      "h_oe=80.*10**-6;\n",
+      "R_l=10000.;\n",
+      "I_f=320.*10**-6;\n",
+      "I_c=I_f*(1./h_oe)/((1./h_oe)+R_l);\n",
+      "V_out=I_c*R_l;\n",
+      "print'%s %.2f %s'%(\"Output voltage = \",V_out,\" V\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Output voltage =  1.78  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 6
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex7-pg144"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.7\n",
+      "import math\n",
+      "b=200.;\n",
+      "h_ie=1.5*10**3;##in ohms\n",
+      "h_fe=150.;\n",
+      "R_l=b*h_ie/h_fe;\n",
+      "print'%s %.2f %s'%(\"Load resistance = \",R_l,\" ohms\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Load resistance =  2000.00  ohms\n"
+       ]
+      }
+     ],
+     "prompt_number": 7
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex8-pg145"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.8\n",
+      "import math\n",
+      "V=9.;\n",
+      "V_e=2.;\n",
+      "R4=1000.;\n",
+      "V_b=2.6;\n",
+      "R2=33.*10**3;\n",
+      "R1=68000.;\n",
+      "I_r1=(V-V_b)/R1;\n",
+      "R3=2.2*10**3;\n",
+      "I_b=15.1*10**-6;\n",
+      "I_c=2.0151*10**-3;\n",
+      "V_r3=I_c*R3;\n",
+      "V_c=V-V_r3;\n",
+      "print'%s %.2f %s'%(\"Collector voltage = \",V_c,\" V\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Collector voltage =  4.57  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 8
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex9-pg147"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:7.9\n",
+      "import math\n",
+      "V_pp=14.8-3.3;\n",
+      "print(\"Collector quiescent voltage = 9.2 V\"); \n",
+      "print(\"\\nCollector quiescent current = 7.3mA\"); \n",
+      "print'%s %.2f %s'%(\"\\nOutput peak-peak voltage = \",V_pp,\" V\"); "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Collector quiescent voltage = 9.2 V\n",
+        "\n",
+        "Collector quiescent current = 7.3mA\n",
+        "\n",
+        "Output peak-peak voltage =  11.50  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 9
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter8.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter8.ipynb
new file mode 100644
index 00000000..b999ba17
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter8.ipynb
@@ -0,0 +1,186 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:69bad2cc1b97411ab194c6989d24ce9e98f48b912e29dd4ff77d5d659094fdfe"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter8-Operational Amplifiers"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg158"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.1\n",
+      "import math\n",
+      "V_out=2.;\n",
+      "V_in=400.*10**-6;\n",
+      "A_v=V_out/V_in;\n",
+      "A_v_dB=math.ceil (20.*(math.log (A_v)/math.log (10.)));\n",
+      "print'%s %.2f %s'%(\"open loop voltage gain = \",A_v_dB,\" dB\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "open loop voltage gain =  74.00  dB\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg159"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.2\n",
+      "import math\n",
+      "V_in=5.*10**-3;\n",
+      "R_in=2.*10**6;\n",
+      "I_in=V_in/R_in;\n",
+      "print'%s %.2e %s'%(\"Input current = \",I_in,\" A\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Input current =  2.50e-09  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg160"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.3\n",
+      "import math\n",
+      "V_out=10.;\n",
+      "t=4.;\n",
+      "SR=V_out/t;\n",
+      "print'%s %.2f %s'%(\"Slew rate = \",SR,\" V/us\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Slew rate =  2.50  V/us\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg160"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.4\n",
+      "import math\n",
+      "V_out=2.;\n",
+      "SR=15.;##in V/us\n",
+      "t=V_out/SR;\n",
+      "print'%s %.2f %s'%(\"Time taken = \",t,\" us\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Time taken =  0.13  us\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg164"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.6\n",
+      "import math\n",
+      "R_in=10000.;\n",
+      "f1=250.;\n",
+      "f2=15000.;\n",
+      "C_in=0.159/(f1*R_in);\n",
+      "C_f=0.159/(f2*R_in);\n",
+      "print'%s %.2e %s'%(\"C_f = \",C_f,\" F\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "C_f =  1.06e-09  F\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter8_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter8_1.ipynb
new file mode 100644
index 00000000..b999ba17
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter8_1.ipynb
@@ -0,0 +1,186 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:69bad2cc1b97411ab194c6989d24ce9e98f48b912e29dd4ff77d5d659094fdfe"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter8-Operational Amplifiers"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg158"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.1\n",
+      "import math\n",
+      "V_out=2.;\n",
+      "V_in=400.*10**-6;\n",
+      "A_v=V_out/V_in;\n",
+      "A_v_dB=math.ceil (20.*(math.log (A_v)/math.log (10.)));\n",
+      "print'%s %.2f %s'%(\"open loop voltage gain = \",A_v_dB,\" dB\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "open loop voltage gain =  74.00  dB\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg159"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.2\n",
+      "import math\n",
+      "V_in=5.*10**-3;\n",
+      "R_in=2.*10**6;\n",
+      "I_in=V_in/R_in;\n",
+      "print'%s %.2e %s'%(\"Input current = \",I_in,\" A\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Input current =  2.50e-09  A\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg160"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.3\n",
+      "import math\n",
+      "V_out=10.;\n",
+      "t=4.;\n",
+      "SR=V_out/t;\n",
+      "print'%s %.2f %s'%(\"Slew rate = \",SR,\" V/us\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Slew rate =  2.50  V/us\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg160"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.4\n",
+      "import math\n",
+      "V_out=2.;\n",
+      "SR=15.;##in V/us\n",
+      "t=V_out/SR;\n",
+      "print'%s %.2f %s'%(\"Time taken = \",t,\" us\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Time taken =  0.13  us\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex6-pg164"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:8.6\n",
+      "import math\n",
+      "R_in=10000.;\n",
+      "f1=250.;\n",
+      "f2=15000.;\n",
+      "C_in=0.159/(f1*R_in);\n",
+      "C_f=0.159/(f2*R_in);\n",
+      "print'%s %.2e %s'%(\"C_f = \",C_f,\" F\"); \n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "C_f =  1.06e-09  F\n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter9.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter9.ipynb
new file mode 100644
index 00000000..594ffb15
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter9.ipynb
@@ -0,0 +1,127 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:e9fb88f63f2c9c2769603c77ea25313f638342259fa02ac4950a18408033aeb6"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter9-Oscillators"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg173"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:9.1\n",
+      "import math\n",
+      "C=10.*10**-9;\n",
+      "R=10000.;\n",
+      "f=(1./(2.*math.pi*math.sqrt (6.)*C*R));\n",
+      "print'%s %.2f %s'%(\"The freq of oscillation = \",f,\" Hz\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The freq of oscillation =  649.75  Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg173"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:9.2\n",
+      "import math\n",
+      "r1=1000.;\n",
+      "r2=1000.;\n",
+      "c=100.*10**-9;\n",
+      "f=(1./(2.*math.pi*c*r1));\n",
+      "print'%s %.2f %s'%(\"The freq of oscillation at 1 kohm= \",f,\" Hz\");\n",
+      "R1=6000.;\n",
+      "R2=6000.;\n",
+      "F=(1/(2.*math.pi*c*R1));\n",
+      "print'%s %.2f %s'%(\"\\nThe freq of oscillation at 6 kohm= \",F,\" Hz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The freq of oscillation at 1 kohm=  1591.55  Hz\n",
+        "\n",
+        "The freq of oscillation at 6 kohm=  265.26  Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg176"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:9.3\n",
+      "import math\n",
+      "f=1000.;\n",
+      "t=1./f;\n",
+      "C=10.*10**-9;\n",
+      "R=t/(1.4*C);\n",
+      "print'%s %.2f %s'%(\"R= \",R/1000,\" kohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "R=  71.43  kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/Chapter9_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/Chapter9_1.ipynb
new file mode 100644
index 00000000..594ffb15
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/Chapter9_1.ipynb
@@ -0,0 +1,127 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:e9fb88f63f2c9c2769603c77ea25313f638342259fa02ac4950a18408033aeb6"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter9-Oscillators"
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg173"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:9.1\n",
+      "import math\n",
+      "C=10.*10**-9;\n",
+      "R=10000.;\n",
+      "f=(1./(2.*math.pi*math.sqrt (6.)*C*R));\n",
+      "print'%s %.2f %s'%(\"The freq of oscillation = \",f,\" Hz\");\n"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The freq of oscillation =  649.75  Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg173"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:9.2\n",
+      "import math\n",
+      "r1=1000.;\n",
+      "r2=1000.;\n",
+      "c=100.*10**-9;\n",
+      "f=(1./(2.*math.pi*c*r1));\n",
+      "print'%s %.2f %s'%(\"The freq of oscillation at 1 kohm= \",f,\" Hz\");\n",
+      "R1=6000.;\n",
+      "R2=6000.;\n",
+      "F=(1/(2.*math.pi*c*R1));\n",
+      "print'%s %.2f %s'%(\"\\nThe freq of oscillation at 6 kohm= \",F,\" Hz\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "The freq of oscillation at 1 kohm=  1591.55  Hz\n",
+        "\n",
+        "The freq of oscillation at 6 kohm=  265.26  Hz\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg176"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:9.3\n",
+      "import math\n",
+      "f=1000.;\n",
+      "t=1./f;\n",
+      "C=10.*10**-9;\n",
+      "R=t/(1.4*C);\n",
+      "print'%s %.2f %s'%(\"R= \",R/1000,\" kohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "R=  71.43  kohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/chapter6.ipynb b/Electronic_Circuits_by_M._H._Tooley/chapter6.ipynb
new file mode 100644
index 00000000..7b68d56d
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/chapter6.ipynb
@@ -0,0 +1,195 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:208e4f11f55abacdac1b020238bf181604676d4f63a97a09e00055db476b2f63"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter6-Power Supplies "
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg117"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.1\n",
+      "import math\n",
+      "V_p=220.;\n",
+      "V_s=V_p/44.;\n",
+      "V_pk=1.414*V_s;##in volts\n",
+      "V_l=V_pk-0.6;\n",
+      "print'%s %.2f %s'%(\"Peak voltage that appear across load = \",V_l,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Peak voltage that appear across load =  6.47  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg118"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.2\n",
+      "import math\n",
+      "X_c=3.18;\n",
+      "R=100.;\n",
+      "V_rip=1.*(X_c/math.sqrt(R**2+X_c**2));\n",
+      "print'%s %.2f %s'%(\"Ripple voltage = \",V_rip,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Ripple voltage =  0.03  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg118"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.3\n",
+      "import math\n",
+      "f=50.;\n",
+      "L=10.;\n",
+      "X_l=2.*math.pi*f*L;\n",
+      "X_c=3.18;\n",
+      "V_rip=1.*(X_c/math.sqrt(X_l**2+X_c**2));\n",
+      "print'%s %.2e %s'%(\"Ripple voltage = \",V_rip,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Ripple voltage =  1.01e-03  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg122"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.4\n",
+      "import math\n",
+      "R_l=400.;\n",
+      "V_in=9.;\n",
+      "V_z=5.;\n",
+      "P_z_max=0.5;\n",
+      "R_s_max=R_l*((V_in/V_z)-1.);\n",
+      "R_s_min=((V_z*V_in)-V_z**2)/P_z_max;\n",
+      "print'%s %.2f %s'%(\"Suitable value of resistor = \",(R_s_max+R_s_min)/2,\" ohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Suitable value of resistor =  180.00  ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg123"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.5\n",
+      "import math\n",
+      "dI_i=20.;\n",
+      "dV_o=0.5;\n",
+      "dV_o_reg=0.1;\n",
+      "dI_o=2.;\n",
+      "R_out=dV_o/dI_o;\n",
+      "Regulation=(dV_o_reg/dI_i)*100.;\n",
+      "print'%s %.2f %s'%(\" output resis. = \",R_out,\" ohm\");   \n",
+      "print'%s %.2f %s'%(\" \\n regulation. = \",Regulation,\"\");                      "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " output resis. =  0.25  ohm\n",
+        " \n",
+        " regulation. =  0.50 \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/chapter6_1.ipynb b/Electronic_Circuits_by_M._H._Tooley/chapter6_1.ipynb
new file mode 100644
index 00000000..7b68d56d
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/chapter6_1.ipynb
@@ -0,0 +1,195 @@
+{
+ "metadata": {
+  "name": "",
+  "signature": "sha256:208e4f11f55abacdac1b020238bf181604676d4f63a97a09e00055db476b2f63"
+ },
+ "nbformat": 3,
+ "nbformat_minor": 0,
+ "worksheets": [
+  {
+   "cells": [
+    {
+     "cell_type": "heading",
+     "level": 1,
+     "metadata": {},
+     "source": [
+      "Chapter6-Power Supplies "
+     ]
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex1-pg117"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.1\n",
+      "import math\n",
+      "V_p=220.;\n",
+      "V_s=V_p/44.;\n",
+      "V_pk=1.414*V_s;##in volts\n",
+      "V_l=V_pk-0.6;\n",
+      "print'%s %.2f %s'%(\"Peak voltage that appear across load = \",V_l,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Peak voltage that appear across load =  6.47  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 1
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex2-pg118"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.2\n",
+      "import math\n",
+      "X_c=3.18;\n",
+      "R=100.;\n",
+      "V_rip=1.*(X_c/math.sqrt(R**2+X_c**2));\n",
+      "print'%s %.2f %s'%(\"Ripple voltage = \",V_rip,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Ripple voltage =  0.03  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 2
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex3-pg118"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.3\n",
+      "import math\n",
+      "f=50.;\n",
+      "L=10.;\n",
+      "X_l=2.*math.pi*f*L;\n",
+      "X_c=3.18;\n",
+      "V_rip=1.*(X_c/math.sqrt(X_l**2+X_c**2));\n",
+      "print'%s %.2e %s'%(\"Ripple voltage = \",V_rip,\" V\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Ripple voltage =  1.01e-03  V\n"
+       ]
+      }
+     ],
+     "prompt_number": 3
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex4-pg122"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.4\n",
+      "import math\n",
+      "R_l=400.;\n",
+      "V_in=9.;\n",
+      "V_z=5.;\n",
+      "P_z_max=0.5;\n",
+      "R_s_max=R_l*((V_in/V_z)-1.);\n",
+      "R_s_min=((V_z*V_in)-V_z**2)/P_z_max;\n",
+      "print'%s %.2f %s'%(\"Suitable value of resistor = \",(R_s_max+R_s_min)/2,\" ohm\");"
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        "Suitable value of resistor =  180.00  ohm\n"
+       ]
+      }
+     ],
+     "prompt_number": 4
+    },
+    {
+     "cell_type": "heading",
+     "level": 2,
+     "metadata": {},
+     "source": [
+      "Ex5-pg123"
+     ]
+    },
+    {
+     "cell_type": "code",
+     "collapsed": false,
+     "input": [
+      "##Ex:6.5\n",
+      "import math\n",
+      "dI_i=20.;\n",
+      "dV_o=0.5;\n",
+      "dV_o_reg=0.1;\n",
+      "dI_o=2.;\n",
+      "R_out=dV_o/dI_o;\n",
+      "Regulation=(dV_o_reg/dI_i)*100.;\n",
+      "print'%s %.2f %s'%(\" output resis. = \",R_out,\" ohm\");   \n",
+      "print'%s %.2f %s'%(\" \\n regulation. = \",Regulation,\"\");                      "
+     ],
+     "language": "python",
+     "metadata": {},
+     "outputs": [
+      {
+       "output_type": "stream",
+       "stream": "stdout",
+       "text": [
+        " output resis. =  0.25  ohm\n",
+        " \n",
+        " regulation. =  0.50 \n"
+       ]
+      }
+     ],
+     "prompt_number": 5
+    }
+   ],
+   "metadata": {}
+  }
+ ]
+}
+\ No newline at end of file
diff --git a/Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter1.png b/Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter1.png
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diff --git a/Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter2.png b/Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter2.png
new file mode 100644
index 00000000..42e4e957
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+++ b/Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter2.png
diff --git a/Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter3.png b/Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter3.png
new file mode 100644
index 00000000..89b5e060
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/screenshots/Chapter3.png
diff --git a/Electronic_Circuits_by_M._H._Tooley/screenshots/chapter1.png b/Electronic_Circuits_by_M._H._Tooley/screenshots/chapter1.png
new file mode 100644
index 00000000..461ff8eb
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/screenshots/chapter1.png
diff --git a/Electronic_Circuits_by_M._H._Tooley/screenshots/chapter2.png b/Electronic_Circuits_by_M._H._Tooley/screenshots/chapter2.png
new file mode 100644
index 00000000..27c50dd0
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+++ b/Electronic_Circuits_by_M._H._Tooley/screenshots/chapter2.png
diff --git a/Electronic_Circuits_by_M._H._Tooley/screenshots/chapter3.png b/Electronic_Circuits_by_M._H._Tooley/screenshots/chapter3.png
new file mode 100644
index 00000000..4d31d522
--- /dev/null
+++ b/Electronic_Circuits_by_M._H._Tooley/screenshots/chapter3.png
author	FOSSEE SysAds	2015-12-08 15:04:13 +0600
committer	FOSSEE SysAds	2015-12-08 15:04:13 +0600
commit	534e42c1dee8fefa92f28d4496f273f8c6e4bd94 (patch)
tree	2896915c480bcca6cfbe6432f3fa84e2166f589b /Electronic_Circuits_by_M._H._Tooley
parent	3ed3fb328a5f4530eec6591d0ca6fe99c69b1013 (diff)
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