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author | Trupti Kini | 2016-09-15 23:32:16 +0600 |
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committer | Trupti Kini | 2016-09-15 23:32:16 +0600 |
commit | 288d791ba890cb6162f57da7597b68b47f4d2538 (patch) | |
tree | ccfc22a8ee32e81701a64973eaf1ab2800a9f7ca /Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter15.ipynb | |
parent | d54c6fae8ab793a084fb1a5bc353dba81b060e98 (diff) | |
download | Python-Textbook-Companions-288d791ba890cb6162f57da7597b68b47f4d2538.tar.gz Python-Textbook-Companions-288d791ba890cb6162f57da7597b68b47f4d2538.tar.bz2 Python-Textbook-Companions-288d791ba890cb6162f57da7597b68b47f4d2538.zip |
Added(A)/Deleted(D) following books
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter1.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter10.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter11.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter12.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter2.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter3.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter4.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter5.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter6.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter7.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter8.ipynb
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/screenshots/2.png
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/screenshots/3.png
M BSc_First_Year_Physics_by_P._BalaBhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/screenshots/4.png
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter01.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter02.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter03.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter04.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter05.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter10.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter11.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter12.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter13.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter14.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter15.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter16.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter17.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter18.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter19.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter20.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter21.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter22.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter6.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter7.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter8.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter9.ipynb
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/screenshots/16.11.png
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/screenshots/3.3.png
M Basic_And_Applied_Thermodynamics_by_P._K._Nag/screenshots/7.10.png
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter1.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter1.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter10.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter10.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter13.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter13.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter14.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter14.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter15.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter15.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter2.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter2.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter3.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter3.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter4.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter4.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter5.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter5.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter6.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter6.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter7.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter7.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter8.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter8.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter9.ipynb -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter9.ipynb
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/screenshots/Screenshot_(88).png -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/screenshots/Screenshot_(88).png
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/screenshots/Screenshot_(89).png -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/screenshots/Screenshot_(89).png
R Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/screenshots/Screenshot_(90).png -> Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/screenshots/Screenshot_(90).png
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/chapter1.ipynb
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/chapter2.ipynb
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/chapter3.ipynb
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/chapter4.ipynb
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/chapter5.ipynb
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/chapter6.ipynb
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/chapter7.ipynb
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/chapter8.ipynb
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/screenshots/DCLOADLINEchapter4.png
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/screenshots/DCLOADLineCH4.png
M Basic_Electronics_by_Rakesh_Kumar_Garg,_Ashish_Dixit_&_Paban_Yadav/screenshots/TransferCharofnchmosfetCH8.png
M Electrical_Machines_-_I_by_M._Verma_And_V._Ahuja/ch1.ipynb
M Electrical_Machines_-_I_by_M._Verma_And_V._Ahuja/ch2.ipynb
M Electrical_Machines_-_I_by_M._Verma_And_V._Ahuja/ch3.ipynb
M Electrical_Machines_-_I_by_M._Verma_And_V._Ahuja/ch4.ipynb
M Electrical_Machines_-_I_by_M._Verma_And_V._Ahuja/screenshots/EffiOfTrans4.png
M Electrical_Machines_-_I_by_M._Verma_And_V._Ahuja/screenshots/starDeltaNdeltaStar4.png
M Electrical_Machines_-_I_by_M._Verma_And_V._Ahuja/screenshots/voltageReg4.png
M Engineering_Mechanics_by_A._K._Tayal/Chapter10.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter12.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter13.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter14.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter15.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter16.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter17.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter18.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter19.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter2.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter20.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter21.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter22.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter23.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter24.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter25.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter26.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter3.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter4.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter5.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter6.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter7.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter8.ipynb
M Engineering_Mechanics_by_A._K._Tayal/Chapter9.ipynb
M Engineering_Mechanics_by_A._K._Tayal/screenshots/1.png
M Engineering_Mechanics_by_A._K._Tayal/screenshots/2.png
M Engineering_Mechanics_by_A._K._Tayal/screenshots/3.png
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/Ch1.ipynb
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/Ch2.ipynb
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/Ch3.ipynb
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/Ch4.ipynb
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/Ch5.ipynb
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/Ch6.ipynb
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/Ch7.ipynb
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/Ch8.ipynb
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/README.txt
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/screenshots/6.1.png
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/screenshots/6.png
M Fundamentals_Of_Electronic_Devices_by_J._B._Gupta/screenshots/7.png
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_10_Heat_Exchangers.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_11_Mass_Transfer.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_1_Introduction.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_2_Steady_State_Conduction_One_Dimension.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_3_Steady_State_Conduction_Multiple_Dimension.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_4_Unsteady_State_Conduction.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_5_Principles_of_Convection.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_6_Empirical_and_Practical_Relations_for_Forced_Convection_Heat_Transfer.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_7_Natural_Convection_Systems.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_8_Radiation_Heat_Transfer.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/Chapter_9_Condensation_and_Boiling_Heat_Transfer.ipynb
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/screenshots/9.1.png
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/screenshots/9.2.png
M Heat_Transfer_(In_SI_Units)_by_J_P_Holman/screenshots/9.4.png
M Heat_Transfer_Principles_And_Applications_by_Dutta/README.txt
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch10.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch11.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch2.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch3.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch4.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch5.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch6.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch7.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch8.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/ch9.ipynb
M Heat_Transfer_Principles_And_Applications_by_Dutta/screenshots/10.png
M Heat_Transfer_Principles_And_Applications_by_Dutta/screenshots/5.png
M Heat_Transfer_Principles_And_Applications_by_Dutta/screenshots/51.png
M Heat_Transfer_in_SI_units_by_Holman/Chapter1.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter10.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter11.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter2.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter3.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter4.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter5.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter6.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter7.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter8.ipynb
M Heat_Transfer_in_SI_units_by_Holman/Chapter9.ipynb
M Heat_Transfer_in_SI_units_by_Holman/README.txt
M Heat_Transfer_in_SI_units_by_Holman/screenshots/9.1.png
M Heat_Transfer_in_SI_units_by_Holman/screenshots/9.2.png
M Heat_Transfer_in_SI_units_by_Holman/screenshots/9.4.png
M Linear_Algebra_And_Its_Applications_by_G._Strang/CHAPTER1.ipynb
M Linear_Algebra_And_Its_Applications_by_G._Strang/CHAPTER2.ipynb
M Linear_Algebra_And_Its_Applications_by_G._Strang/CHAPTER3.ipynb
M Linear_Algebra_And_Its_Applications_by_G._Strang/CHAPTER4.ipynb
M Linear_Algebra_And_Its_Applications_by_G._Strang/CHAPTER5.ipynb
M Linear_Algebra_And_Its_Applications_by_G._Strang/CHAPTER6.ipynb
M Linear_Algebra_And_Its_Applications_by_G._Strang/CHAPTER7.ipynb
M Linear_Algebra_And_Its_Applications_by_G._Strang/CHAPTER8.ipynb
M Linear_Algebra_And_Its_Applications_by_G._Strang/screenshots/Ch5Eigenmatrix.png
M Linear_Algebra_And_Its_Applications_by_G._Strang/screenshots/Ch5eigenVectors.png
M Linear_Algebra_And_Its_Applications_by_G._Strang/screenshots/ch5eigenvaluematrix.png
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/Chapter1.ipynb
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/Chapter2.ipynb
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/Chapter3.ipynb
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/Chapter4.ipynb
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/Chapter5.ipynb
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/Chapter6.ipynb
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/Chapter7.ipynb
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/Chapter8.ipynb
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/Chapter9.ipynb
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/README.txt
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/screenshots/1.png
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/screenshots/2.png
M OpAmps_And_Linear_Integrated_Circuits_by_Gayakwad/screenshots/8.png
M Power_Electronics_Principles_and_Applications_by_Jacob/Chapter1.ipynb
M Power_Electronics_Principles_and_Applications_by_Jacob/Chapter2.ipynb
M Power_Electronics_Principles_and_Applications_by_Jacob/Chapter3.ipynb
M Power_Electronics_Principles_and_Applications_by_Jacob/Chapter4.ipynb
M Power_Electronics_Principles_and_Applications_by_Jacob/Chapter5.ipynb
M Power_Electronics_Principles_and_Applications_by_Jacob/Chapter6.ipynb
M Power_Electronics_Principles_and_Applications_by_Jacob/Chapter7.ipynb
M Power_Electronics_Principles_and_Applications_by_Jacob/Chapter8.ipynb
M Power_Electronics_Principles_and_Applications_by_Jacob/Chapter9.ipynb
M Power_Electronics_Principles_and_Applications_by_Jacob/README.txt
M Power_Electronics_Principles_and_Applications_by_Jacob/screenshots/4.png
M Power_Electronics_Principles_and_Applications_by_Jacob/screenshots/5.png
M Power_Electronics_Principles_and_Applications_by_Jacob/screenshots/6.png
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter10_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter11_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter12_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter13_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter14_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter15_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter16_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter17_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter18_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter19_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter1_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter20_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter21_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter22_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter23_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter24_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter25_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter26_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter2_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter6_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter7_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter8_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/chapter9_6.ipynb
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/screenshots/chapter10_ac_load_line_5.png
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/screenshots/chapter18_clipping_ckt_output_6.png
M Principles_of_Electronics_____by_V.K._Mehta_and_Rohit_Mehta/screenshots/chapter8_dc_load_line_6.png
M Principles_of_Physics_by_F.J.Bueche/README.txt
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch10.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch11.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch12.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch14.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch16.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch2.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch3.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch4.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch5.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch6.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch7.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch8.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/ch9.ipynb
M Semiconductor_circuit_approximations_by_A.P._Malvino/screenshots/ACloadLineChapter10.png
M Semiconductor_circuit_approximations_by_A.P._Malvino/screenshots/DCandACloadlinechapter9.png
M Semiconductor_circuit_approximations_by_A.P._Malvino/screenshots/Powerratingchapter9.png
M Strength_Of_Materials_by_S_S_Bhavikatti/chapter_no.10_8.ipynb
M Strength_Of_Materials_by_S_S_Bhavikatti/chapter_no.2_8.ipynb
M Strength_Of_Materials_by_S_S_Bhavikatti/chapter_no.3_8.ipynb
M Strength_Of_Materials_by_S_S_Bhavikatti/chapter_no.4_8.ipynb
M Strength_Of_Materials_by_S_S_Bhavikatti/chapter_no.5_8.ipynb
M Strength_Of_Materials_by_S_S_Bhavikatti/chapter_no.6_8.ipynb
M Strength_Of_Materials_by_S_S_Bhavikatti/chapter_no.7_8.ipynb
M Strength_Of_Materials_by_S_S_Bhavikatti/chapter_no.8_8.ipynb
M Strength_Of_Materials_by_S_S_Bhavikatti/chapter_no.9_8.ipynb
M Strength_Of_Materials_by_S_S_Bhavikatti/screenshots/BMD.JPG
M Strength_Of_Materials_by_S_S_Bhavikatti/screenshots/SFD2.JPG
M Strength_Of_Materials_by_S_S_Bhavikatti/screenshots/S_F_D_1.JPG
A Theory_of_Alternating_Current_Machinery_by_A._S._Langsdorf/README.txt
M sample_notebooks/AviralYadav/Chapter5.ipynb
A sample_notebooks/RONAKBANSAL/chapter_1.ipynb
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diff --git a/Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter15.ipynb b/Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter15.ipynb new file mode 100755 index 00000000..242a7d17 --- /dev/null +++ b/Basic_Electronics_Electronics_Engineering_by_J_B_Gupta/chapter15.ipynb @@ -0,0 +1,394 @@ +{
+ "cells": [
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "#Chapter 15 , Cathode Ray Oscilloscope"
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "##Example 15.1 , Page Number 537"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 15,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "Deflection sensitivity : 0.167 mm/V.\n"
+ ]
+ }
+ ],
+ "source": [
+ "#Variables\n",
+ "\n",
+ "l = 25.0 * 10**-3 #Length of plates (in meter)\n",
+ "d = 5.0 * 10**-3 #Distance between plates (in meter)\n",
+ "S = 0.20 #Distance between screen and centre of plates (in meter) \n",
+ "Va = 3000.0 #Accelerating voltage (in volts)\n",
+ "tracelen = 0.1 #Trace length (in meter)\n",
+ "y = tracelen/2 #vertical distance (in meter)\n",
+ "\n",
+ "#Calculation\n",
+ "\n",
+ "Vd = 2*d*Va*y/(l*S) #Deflecting voltage (in volts)\n",
+ "Vrms = Vd/2**0.5 #RMS value of voltage (in volts)\n",
+ "defsen = l*S/(2*d*Va) #Deflection sensitivity (in meter per volt)\n",
+ "\n",
+ "#Result\n",
+ "\n",
+ "print \"Deflection sensitivity : \",round(defsen * 10**3,3),\"mm/V.\""
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "##Example 15.2 , Page Number 537"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 14,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "Maximum velocity of electrons : 18.75 e+6 m/s.\n"
+ ]
+ }
+ ],
+ "source": [
+ "#Variables\n",
+ "\n",
+ "Va = 1000.0 #Accelerating voltage (in volts)\n",
+ "e = 1.6 * 10**-19 #Charge on electron (in Coulomb)\n",
+ "m = 9.1 * 10**-31 #Mass of electron (in kilogram) \n",
+ "\n",
+ "#Calculation\n",
+ "\n",
+ "v = (2*Va*e/m)**0.5 #Maximum velocity of electrons (in meter per second) \n",
+ "\n",
+ "#Result\n",
+ "\n",
+ "print \"Maximum velocity of electrons : \",round(v*10**-6,2),\"e+6 m/s.\""
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "##Example 15.3 , Page Number 538"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 11,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "Applied voltage : 100.0 V.\n"
+ ]
+ }
+ ],
+ "source": [
+ "#Variables\n",
+ "\n",
+ "defsen = 0.05 * 10**-3 #Deflection Sensitivity (in meter per volt)\n",
+ "spotdef = 5.0 * 10**-3 #Deflection factor (in volt per meter)\n",
+ "\n",
+ "#Calculation\n",
+ "\n",
+ "V = spotdef/defsen #Applied voltage (in volts)\n",
+ "\n",
+ "#Result\n",
+ "\n",
+ "print \"Applied voltage : \",V,\"V.\""
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "##Example 15.4 , Page Number 538"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 10,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "Deflection sensitivity : 0.1667 mm/V.\n",
+ "Deflection factor : 6.0 V/mm.\n"
+ ]
+ }
+ ],
+ "source": [
+ "#Variables\n",
+ "\n",
+ "l = 20.0 * 10**-3 #Length of plates (in meter)\n",
+ "d = 5.0 * 10**-3 #Distance between plates (in meter)\n",
+ "S = 0.25 #Distance between screen and centre of plates (in meter) \n",
+ "Va = 3000.0 #Accelerating voltage (in volts) \n",
+ "\n",
+ "#Calculation\n",
+ "\n",
+ "defsen = l*S/(2*d*Va) #Deflection Sensitivity (in meter per volt)\n",
+ "deffact = 1/defsen #Deflection factor (in volt per meter)\n",
+ "\n",
+ "#Result\n",
+ "\n",
+ "print \"Deflection sensitivity : \",round(defsen*10**3,4),\"mm/V.\"\n",
+ "print \"Deflection factor : \",deffact*10**-3,\"V/mm.\""
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "##Example 15.6 , Page Number 549"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 6,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "Ratio of freqency of vertical and horizontal signals : 1.5 .\n"
+ ]
+ }
+ ],
+ "source": [
+ "#Variables\n",
+ "\n",
+ "tangv = 3.0 #Positive of Y - peak to vertical line\n",
+ "tangh = 2.0 #Positive of X - peak to horizontal line \n",
+ "\n",
+ "#Calculation\n",
+ "\n",
+ "ratio = tangv/tangh #Ratio of freq. of vertical and horizontal signals \n",
+ "\n",
+ "#Result\n",
+ "\n",
+ "print \"Ratio of freqency of vertical and horizontal signals : \",ratio,\".\""
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "##Example 15.7 , Page Number 549"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 5,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "Frequency of vertical input : 7500.0 Hz.\n"
+ ]
+ }
+ ],
+ "source": [
+ "#Variables\n",
+ "\n",
+ "fx = 3.0 * 10**3 #Frequency of horizontal input (in Hertz)\n",
+ "tangv = 2.5 #Positive of Y - peak to vertical line\n",
+ "tangh = 1.0 #Positive of X - peak to horizontal line \n",
+ "\n",
+ "#Calculation\n",
+ "\n",
+ "fy = fx*tangv/tangh #Frequency of vertical input (in Hertz)\n",
+ "\n",
+ "#Result\n",
+ "\n",
+ "print \"Frequency of vertical input : \",fy,\"Hz.\""
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "##Example 15.8 , Page Number 549"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 3,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "Frequency of vertical input : 2500.0 Hz.\n"
+ ]
+ }
+ ],
+ "source": [
+ "#Variables\n",
+ "\n",
+ "fx = 1000.0 #Frequency of horizontal input (in Hertz)\n",
+ "tangv = 2.0 #Points of tangency to vertical line\n",
+ "tangh = 5.0 #Points of tangency to horizontal line \n",
+ "\n",
+ "#Calculation\n",
+ "\n",
+ "fy = fx*tangh/tangv #Frequency of vertical input (in Hertz)\n",
+ "\n",
+ "#Result\n",
+ "\n",
+ "print \"Frequency of vertical input : \",fy,\"Hz.\""
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "##Example 15.9 , Page Number 549"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 2,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "Mark to Space ratio : 0.25 .\n",
+ "Pulse frequency : 50.0 kHz.\n",
+ "Magnitude of pulse voltage : 0.43 V.\n"
+ ]
+ }
+ ],
+ "source": [
+ "#Variables\n",
+ "\n",
+ "div = 1.0 #One division = one cm (in cm)\n",
+ "mark = 0.4 #One mark (in cm)\n",
+ "space = 1.6 #One space (in cm)\n",
+ "Amp = 2.15 #Amplitude \n",
+ "Ampctrl = 0.2 #Signal amplitude control (in volt per division) \n",
+ "tbctrlset = 10.0 * 10**-6 #Time based control setting (in seconds)\n",
+ "\n",
+ "#Calculation\n",
+ "\n",
+ "MtoS = mark/space #Mark to space ratio\n",
+ "T = (space + mark)*tbctrlset #Pulse time period (in seconds)\n",
+ "f = 1/T #Pulse frequency (in Hertz)\n",
+ "Vp = Amp * Ampctrl #Magnitude of pulse voltage (in volts) \n",
+ "\n",
+ "#Result\n",
+ "\n",
+ "print \"Mark to Space ratio : \",round(MtoS,2),\".\"\n",
+ "print \"Pulse frequency : \",(f*10**-3),\"kHz.\"\n",
+ "print \"Magnitude of pulse voltage : \",Vp,\"V.\""
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "##Example 15.10 , Page Number 550"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 1,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "RMS value of ac voltage : 17.678 V.\n"
+ ]
+ }
+ ],
+ "source": [
+ "#Variables\n",
+ "\n",
+ "L = 10 #Length of trace (in cm)\n",
+ "S = 5 #Deflection sensitivty (in volt per cm)\n",
+ "\n",
+ "#Calculation\n",
+ "\n",
+ "Vpktopk = L*S #Voltage peak-to-peak (in volts)\n",
+ "Vpeak = Vpktopk/2 #Peak value of voltage (in volts)\n",
+ "Vrms = Vpeak/2**0.5 #RMS of peak value (in volts) \n",
+ "\n",
+ "#Result\n",
+ "\n",
+ "print \"RMS value of ac voltage : \",round(Vrms,3),\"V.\"\n",
+ "\n",
+ "#Slight variations due to higher precision."
+ ]
+ }
+ ],
+ "metadata": {
+ "kernelspec": {
+ "display_name": "Python 2",
+ "language": "python",
+ "name": "python2"
+ },
+ "language_info": {
+ "codemirror_mode": {
+ "name": "ipython",
+ "version": 2
+ },
+ "file_extension": ".py",
+ "mimetype": "text/x-python",
+ "name": "python",
+ "nbconvert_exporter": "python",
+ "pygments_lexer": "ipython2",
+ "version": "2.7.10"
+ }
+ },
+ "nbformat": 4,
+ "nbformat_minor": 0
+}
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