Added(A)/Deleted(D) following books

 M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/README.txt
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter10_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter10_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter11.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter11_1.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter12_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter12_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter13_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter13_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter14_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter14_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter15_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter15_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter16_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter16_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter1_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter1_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter2_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter2_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter3_1.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter4.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter4_1.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter5.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter5_1.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter6_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter6_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter7_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter7_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter8_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter8_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter9_2.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/chapter9_3.ipynb
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/screenshots/Screenshot_from_2016-01-14_17_01_00.png
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/screenshots/Screenshot_from_2016-01-14_17_01_00_1.png
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/screenshots/Screenshot_from_2016-01-14_17_01_25.png
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/screenshots/Screenshot_from_2016-01-14_17_01_25_1.png
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/screenshots/Screenshot_from_2016-01-14_17_02_44.png
M  1000_solved_Problems_in_Fluid_Mechanics_includes_Hydraulic_machines_by_K.Subramanya/screenshots/Screenshot_from_2016-01-14_17_02_44_1.png
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter25_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter25_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter25_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter26_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter26_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter26_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter27_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter27_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter27_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter28_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter28_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter28_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter29_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter29_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter29_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter30_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter30_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter30_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter31_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter31_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter31_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter32_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter32_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter32_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter33_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter33_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter33_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter34_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter34_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter34_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter35_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter35_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter35_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter36_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter36_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter36_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter37_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter37_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter37_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter38_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter38_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter38_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter39_4.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter39_5.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/chapter39_6.ipynb
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/screenshots/chapter29example32_4.png
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/screenshots/chapter29example32_5.png
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/screenshots/chapter29example32_6.png
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/screenshots/chapter29example33_4.png
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/screenshots/chapter29example33_5.png
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/screenshots/chapter29example33_6.png
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/screenshots/chapter32example30_4.png
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/screenshots/chapter32example30_5.png
M  A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A_K_Theraja_B_L_Thereja/screenshots/chapter32example30_6.png
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap10_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap11_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap12_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap13_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap16_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap17_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap18_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap19_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap20_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap21_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap22_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap23_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap24_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap25_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap26_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap27_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap28_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap29_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap30_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap31_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap32_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap33_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap34_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap3_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap5_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap7_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap8_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/Chap9_2.ipynb
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/README.txt
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/screenshots/11DrainCurrentGraph.png
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/screenshots/18VceVsIce.png
M  A_Textbook_of_Electronic_Circuits_by_R._S._Sedha/screenshots/24GainGraph.png
M  Analog_Electronics_by_U._A._Bakshi_And_A._P._Godse/README.txt
M  Applied_Thermodynamics_and_Engineering_by_T._D._Eastop_and_A._Mcconkey/README.txt
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter01.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter02.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter03.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter04.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter05.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter10.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter11.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter12.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter13.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter14.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter15.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter16.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter17.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter18.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter19.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter20.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter21.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter22.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter6.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter7.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter8.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/Chapter9.ipynb
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/screenshots/16.11.png
A  Basic_And_Applied_Thermodynamics_by_P._K._Nag/screenshots/3.3.png
A  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  Coulson_And_Richardsons_Chemical_Engineering,_Volume_2_by_J._M._Coulson,_J._F._Richardson,_J._R._Backhurst_And_J._H._Harker/README.txt
M  Digital_Communications_by_S._Haykin/Chapter1.ipynb
M  Digital_Communications_by_S._Haykin/Chapter2.ipynb
M  Digital_Communications_by_S._Haykin/Chapter3.ipynb
M  Digital_Communications_by_S._Haykin/Chapter4.ipynb
M  Digital_Communications_by_S._Haykin/Chapter5.ipynb
M  Digital_Communications_by_S._Haykin/Chapter6.ipynb
M  Digital_Communications_by_S._Haykin/Chapter7.ipynb
M  Digital_Communications_by_S._Haykin/Chapter8.ipynb
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M  Electrical_Engineering_-_Principles_And_Applications_by_Allan._R._Hambley/chapter16_1.ipynb
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M  Electronic_Communication_by_D._Roddy/Chapter10_Angle_Modulation_1.ipynb
M  Electronic_Communication_by_D._Roddy/Chapter11_Pulse_Modulation_1.ipynb
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M  Electronic_Communication_by_D._Roddy/Chapter13_Transmission_Lines_And_Cables_1.ipynb
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M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch11_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch12_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch14_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch15_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch16_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch17_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch18_1.ipynb
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M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch20_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch21_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch24_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch3_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch4_1.ipynb
M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch5_1.ipynb
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M  Electronics_Devices_And_Circuits_by_S._Salivahanan,_N._S._Kumar_And_A._Vallavaraj/Ch7_1.ipynb
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M  Engineering_Mechanics_of_Solids_by_Popov_E_P/chapter12_7.ipynb
M  Engineering_Mechanics_of_Solids_by_Popov_E_P/chapter12_8.ipynb
M  Engineering_Mechanics_of_Solids_by_Popov_E_P/chapter13_6.ipynb
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M  Engineering_Mechanics_of_Solids_by_Popov_E_P/chapter4_7.ipynb
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M  Engineering_Mechanics_of_Solids_by_Popov_E_P/chapter5_7.ipynb
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M  Fiber_Optic_Communications:_Fundamentals_and_Applications_by_S._Kumar_and_M._J._Deen/Chapter3_1.ipynb
M  Fiber_Optic_Communications:_Fundamentals_and_Applications_by_S._Kumar_and_M._J._Deen/Chapter4_1.ipynb
M  Fiber_Optic_Communications:_Fundamentals_and_Applications_by_S._Kumar_and_M._J._Deen/Chapter5_1.ipynb
M  Fiber_Optic_Communications:_Fundamentals_and_Applications_by_S._Kumar_and_M._J._Deen/Chapter6_1.ipynb
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M  Fiber_Optic_Communications:_Fundamentals_and_Applications_by_S._Kumar_and_M._J._Deen/Chapter8_1.ipynb
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M  Linear_Algebra_by_K._Hoffman_and_R._Kunze/Chapter1.ipynb
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M  Linear_Algebra_by_K._Hoffman_and_R._Kunze/Chapter2.ipynb
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M  Linear_Algebra_by_K._Hoffman_and_R._Kunze/Chapter3.ipynb
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M  Linear_Algebra_by_K._Hoffman_and_R._Kunze/Chapter4.ipynb
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M  Material_Science_by_S._L._Kakani_and_A._Kakani/README.txt
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M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch11.ipynb
M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch12.ipynb
M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch13.ipynb
M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch14.ipynb
M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch15.ipynb
M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch16.ipynb
M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch18.ipynb
M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch2.ipynb
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M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch6.ipynb
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M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch8.ipynb
M  Material_Science_by_S._L._Kakani_and_A._Kakani/ch9.ipynb
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M  Microwave_engineering__by_D.M.Pozar_/Chapter_10_ACTIVE_MICROWAVE_CIRCUITS_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_10_ACTIVE_MICROWAVE_CIRCUITS_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_10_ACTIVE_MICROWAVE_CIRCUITS_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_12_INTRODUCTION_TO_MICROWAVE_SYSTEMS_2.ipynb
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M  Microwave_engineering__by_D.M.Pozar_/Chapter_12_INTRODUCTION_TO_MICROWAVE_SYSTEMS_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_1_ELECTROMAGNETIC_THEORY_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_1_ELECTROMAGNETIC_THEORY_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_1_ELECTROMAGNETIC_THEORY_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_2_TRANSMISSION_LINE_THEORY_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_2_TRANSMISSION_LINE_THEORY_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_2_TRANSMISSION_LINE_THEORY_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_3_TRANSMISSION_LINE_AND_WAVEGUIDES_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_3_TRANSMISSION_LINE_AND_WAVEGUIDES_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_3_TRANSMISSION_LINE_AND_WAVEGUIDES_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_4_MICROWAVE_NETWORK_ANALYSIS_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_4_MICROWAVE_NETWORK_ANALYSIS_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_4_MICROWAVE_NETWORK_ANALYSIS_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_5_IMPEDENCE_MATCHING_AND_TUNNING_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_5_IMPEDENCE_MATCHING_AND_TUNNING_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_5_IMPEDENCE_MATCHING_AND_TUNNING_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_6_MICROWAVE_RESONATORS_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_6_MICROWAVE_RESONATORS_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_6_MICROWAVE_RESONATORS_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_7_POWER_DIVIDERS_DIRECTIONAL_COUPLERS_AND_HYBRIDS_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_7_POWER_DIVIDERS_DIRECTIONAL_COUPLERS_AND_HYBRIDS_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_7_POWER_DIVIDERS_DIRECTIONAL_COUPLERS_AND_HYBRIDS_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_8_MICROWAVE_FILTERS_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_8_MICROWAVE_FILTERS_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_8_MICROWAVE_FILTERS_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_9_THEORY_AND_DESIGN_OF_FERRIMAGNETIC_COMPONENTS_2.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_9_THEORY_AND_DESIGN_OF_FERRIMAGNETIC_COMPONENTS_3.ipynb
M  Microwave_engineering__by_D.M.Pozar_/Chapter_9_THEORY_AND_DESIGN_OF_FERRIMAGNETIC_COMPONENTS_4.ipynb
M  Microwave_engineering__by_D.M.Pozar_/README.txt
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M  Microwave_engineering__by_D.M.Pozar_/screenshots/Screen_Shot_2016-06-29_at_6.35.29_pm.png
M  Microwave_engineering__by_D.M.Pozar_/screenshots/Screen_Shot_2016-06-29_at_6.36.09_pm.png
M  Microwave_engineering__by_D.M.Pozar_/screenshots/chap_1.png
M  Microwave_engineering__by_D.M.Pozar_/screenshots/chap_1_1.png
M  Microwave_engineering__by_D.M.Pozar_/screenshots/chap_2.png
M  Microwave_engineering__by_D.M.Pozar_/screenshots/chap_2_1.png
M  Microwave_engineering__by_D.M.Pozar_/screenshots/chap_3.png
M  Microwave_engineering__by_D.M.Pozar_/screenshots/chap_3_1.png
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter10_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter11_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter13_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter14_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter15_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter17_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter18_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter19_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter1_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter21_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter22_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter23_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter25_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter26_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter3_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter4_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter5_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter6_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter7_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/Chapter9_2.ipynb
M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/README.txt
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M  Numerical_Methods_For_Engineers_by_S._C._Chapra_And_R._P._Canale/screenshots/image3.png
M  Optical_Fiber_Communication_System_by_Dr._M.K._Raina/README.txt
M  PRINCIPLES_OF_MASS_TRANSFER_AND_SEPARATION_PROCESS_by_Binay_K._Dutta/Chapter-2.ipynb
M  PRINCIPLES_OF_MASS_TRANSFER_AND_SEPARATION_PROCESS_by_Binay_K._Dutta/Chapter-3.ipynb
M  PRINCIPLES_OF_MASS_TRANSFER_AND_SEPARATION_PROCESS_by_Binay_K._Dutta/Chapter-4.ipynb
M  PRINCIPLES_OF_MASS_TRANSFER_AND_SEPARATION_PROCESS_by_Binay_K._Dutta/Chapter-5.ipynb
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M  PRINCIPLES_OF_MASS_TRANSFER_AND_SEPARATION_PROCESS_by_Binay_K._Dutta/screenshots/chapter2_example_2.4_plot_2.png
M  PRINCIPLES_OF_MASS_TRANSFER_AND_SEPARATION_PROCESS_by_Binay_K._Dutta/screenshots/chapter4_example_4.5_plot_2.png
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter26.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter27.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter28.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter29.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter30.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter31.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter33.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter34.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter35.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter36.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter37.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter38.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter39.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter40.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter41.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter42.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter43.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter44.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter45.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter46.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter47.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/Chapter48.ipynb
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/screenshots/Chapter_37.png
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/screenshots/Chapter_38.png
M  Physics-_For_Students_Of_Science_And_Engineering(Part_2)_by_D._Halliday_and_R._Resnick/screenshots/Chapter_39.png
M  Power_Electronics:_Principles_&_Applications_by_J_M_Jacob/Chapter1.ipynb
M  Power_Electronics:_Principles_&_Applications_by_J_M_Jacob/Chapter2.ipynb
M  Power_Electronics:_Principles_&_Applications_by_J_M_Jacob/Chapter3.ipynb
M  Power_Electronics:_Principles_&_Applications_by_J_M_Jacob/Chapter4.ipynb
M  Power_Electronics:_Principles_&_Applications_by_J_M_Jacob/Chapter5.ipynb
M  Power_Electronics:_Principles_&_Applications_by_J_M_Jacob/Chapter6.ipynb
M  Power_Electronics:_Principles_&_Applications_by_J_M_Jacob/Chapter7.ipynb
M  Power_Electronics:_Principles_&_Applications_by_J_M_Jacob/Chapter8.ipynb
M  Power_Electronics:_Principles_&_Applications_by_J_M_Jacob/Chapter9.ipynb
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M  Thermodynamics_by_K._M._Gupta/README.txt
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diff --git a/Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter8.ipynb b/Basic_Electronics_(Electronics_Engineering)_by_J_B_Gupta/chapter8.ipynb
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+{

+ "cells": [

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "#Chapter 8 , Hybrid Parameteres and Transistor Amplifiers"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.1 , Page Number 285"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 1,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "hie :  1.1 kilo-ohm.\n",

+      "hfe :  50.0 .\n",

+      "hre :  0.00025 .\n",

+      "hoe :  30.0 micro-S.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "IB1 = 20.0 *10**-6                  #Base current with ac o/p shorted (in Ampere)\n",

+    "IC1 = 1.0 *10**-3                   #Collector current with ac o/p shorted (in Ampere)\n",

+    "VBC1 = 22.0 * 10**-3                #Base-collector voltage with ac o/p shorted (in volts)\n",

+    "VCE1 = 0                            #Collector-emitter voltage wwith ac o/p shorted (in volts)\n",

+    "\n",

+    "IB2 = 0                             #Base current with ac i/p open-circuited (in Ampere)\n",

+    "VBE2 = 0.25 *10**-3                 #Base-emitter voltage with ac i/p open-circuited (in volts)\n",

+    "IC2 = 30.0 * 10**-6                 #Collector current with ac i/p open-circuited (in Ampere)              \n",

+    "VCE2 = 1                            #Collector-emitter voltage with ac i/p open-circuited (in volts)\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "hie = VBC1/IB1                      #hie (in ohm)\n",

+    "hfe = IC1/IB1                       #Current gain in CE\n",

+    "hre = VBE2/VCE2                     #hre \n",

+    "hoe = IC2/VCE2                      #hoe (in Siemen)\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"hie : \",hie*10**-3,\"kilo-ohm.\"\n",

+    "print \"hfe : \",hfe,\".\"\n",

+    "print \"hre : \",hre,\".\"\n",

+    "print \"hoe : \",hoe * 10**6,\"micro-S.\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.2 , Page Number 290"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 3,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "hfb :  -0.98 .\n",

+      "hib :  16.27 ohm.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hfe = 50.0                    #hfe\n",

+    "hie = 0.83 * 10**3            #hie (in ohm)\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "hfb =  -hfe/(1 + hfe)         #Current gain\n",

+    "hib = hie/(1 + hfe)           #Input impedance (in ohm)    \n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"hfb : \",round(hfb,2),\".\\nhib : \",round(hib,2),\"ohm.\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.3 , Page Number 290"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 5,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "hic : 2600.0 ohm.\n",

+      "hfc : -101 .\n",

+      "hrc : 1.0 .\n",

+      "hoc : 5e-06 S.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hfe = 100                          #hfe\n",

+    "hre = 0.02 * 10**-2                #hre\n",

+    "hoe = 5 * 10**-6                   #hoe (in Siemens) \n",

+    "hic = hie = 2600.0                 #hie (in ohm) \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "hfc = -(1 + hfe)                   #hfc                   \n",

+    "hrc = 1 - hre                      #hrc\n",

+    "hoc = hoe                          #hoe (in Siemens) \n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"hic :\",hic,\"ohm.\"\n",

+    "print \"hfc :\",hfc,\".\"\n",

+    "print \"hrc :\",round(hrc),\".\"\n",

+    "print \"hoc :\",hoc,\"S.\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.4 , Page Number 294  "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 9,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Current gain : -19.6 .\n",

+      "Input resistance : 1905.92 ohm.\n",

+      "Voltage gain : -308.5 .\n",

+      "Overall voltage gain : -235.0 .\n",

+      "Overall current gain : -4.7 .\n",

+      "Output conductance : 4.69846153846e-05 S.\n",

+      "Output resistance : 21284.0 ohm.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hie = 2000.0                    #hie (in ohm)\n",

+    "hre = 1.6 * 10**-4              #hre\n",

+    "hfe = 49                        #Current gain \n",

+    "hoe = 50 * 10**-6               #hoe (in Ampere per volt)\n",

+    "RL = 30.0 * 10**3               #Load resistance (in ohm)\n",

+    "RS = 600.0                      #Source resistance (in ohm)\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "Ai = - hfe/(1 + hoe*RL)         #Current gain\n",

+    "Rin = hie - hre*hfe/(hoe + 1/RL)#Input resistance (in ohm)\n",

+    "Av = -hfe/((hoe + 1/RL)*Rin)    #Voltage gain \n",

+    "Avs = Av*Rin/(Rin + RS)         #Overall voltage gain \n",

+    "Ais = Ai*RS/(Rin + RS)          #Overall current gain\n",

+    "Gout = hoe - hfe*hre/(hie + RS) #Output conductance (in Siemens)\n",

+    "Rout = 1/Gout                   #Output resistance (in ohm)\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Current gain :\",Ai,\".\"\n",

+    "print \"Input resistance :\",Rin,\"ohm.\"\n",

+    "print \"Voltage gain :\",round(Av,1),\".\"\n",

+    "print \"Overall voltage gain :\",round(Avs),\".\"\n",

+    "print \"Overall current gain :\",round(Ais,1),\".\"\n",

+    "print \"Output conductance :\",Gout,\"S.\"\n",

+    "print \"Output resistance :\",round(Rout),\"ohm.\"\n",

+    "\n",

+    "#Slight variations due to higher precision."

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.5 , Page Number 294 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 11,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Current gain : -48.78 .\n",

+      "Input resistance : 1087.8 ohm.\n",

+      "Voltage gain : -44.84 .\n",

+      "Overall voltage gain : -23.36 .\n",

+      "Overall current gain : -23.364 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hie = 1.1 * 10**3              #hie (in ohm)\n",

+    "hre = 0.25 * 10**-3            #hre\n",

+    "hfe = 50                       #Current gain\n",

+    "hoe = 25.0 * 10**-6            #hoe (in Siemens)\n",

+    "RL = 1.0 * 10**3               #Load resistance (in ohm)\n",

+    "RS = 1.0 * 10**3               #Series resistance (in ohm) \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "Ai = - hfe/(1 + hoe*RL)         #Current gain\n",

+    "Rin = hie - hre*hfe/(hoe + 1/RL)#Input resistance (in ohm)\n",

+    "Av = -hfe/((hoe + 1/RL)*Rin)    #Voltage gain \n",

+    "Avs = Av*Rin/(Rin + RS)         #Overall voltage gain \n",

+    "Ais = Ai*RS/(Rin + RS)          #Overall current gain\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Current gain :\",round(Ai,2),\".\"\n",

+    "print \"Input resistance :\",round(Rin,1),\"ohm.\"\n",

+    "print \"Voltage gain :\",round(Av,2),\".\"\n",

+    "print \"Overall voltage gain :\",round(Avs,2),\".\"\n",

+    "print \"Overall current gain :\",round(Ais,3),\".\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.6 , Page Number 295 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 13,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Current gain : -100.0 .\n",

+      "Input resistance : 1000.0 ohm.\n",

+      "Voltage gain : -200.0 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hie = 1.0 * 10**3            #hie (in ohm)\n",

+    "hfe = 100                    #Current gain\n",

+    "RL = 2.0 * 10**3             #Load resistance (in ohm)\n",

+    "hre = hoe = 0                #hre \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "Ai = - hfe/(1 + hoe*RL)         #Current gain\n",

+    "Rin = hie - hre*hfe/(hoe + 1/RL)#Input resistance (in ohm)\n",

+    "Av = -hfe/((hoe + 1/RL)*Rin)    #Voltage gain \n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Current gain :\",round(Ai,2),\".\"\n",

+    "print \"Input resistance :\",round(Rin,1),\"ohm.\"\n",

+    "print \"Voltage gain :\",round(Av,2),\".\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.7 , Page Number 295 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 20,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Current gain : 0.979 .\n",

+      "Input resistance : 24.47 ohm.\n",

+      "Voltage gain : 48.02 .\n",

+      "Overall voltage gain : 5.24 .\n",

+      "Overall current gain : 0.873 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "RS = 200.0                  #internal resistance (in ohm)\n",

+    "RL = 1200.0                 #Load resistance (in ohm)\n",

+    "hib = 24.0                  #hib (in ohm)\n",

+    "hrb = 4.0 * 10**-4          #hrb\n",

+    "hfb = -0.98                 #hfb\n",

+    "hob = 0.6 * 10**-6          #hob (in Ampere per volt)\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "Ai = - hfb/(1 + hob*RL)         #Current gain\n",

+    "Rin = hib + hrb*Ai*RL           #Input resistance (in ohm)\n",

+    "Av = Ai*RL/Rin                  #Voltage gain \n",

+    "Avs = Av*Rin/(Rin + RS)         #Overall voltage gain \n",

+    "Ais = Ai*RS/(Rin + RS)          #Overall current gain\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Current gain :\",round(Ai,3),\".\"\n",

+    "print \"Input resistance :\",round(Rin,2),\"ohm.\"\n",

+    "print \"Voltage gain :\",round(Av,2),\".\"\n",

+    "print \"Overall voltage gain :\",round(Avs,2),\".\"\n",

+    "print \"Overall current gain :\",round(Ais,3),\".\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.8 , Page Number 296 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 29,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "hfe : 120.0 .\n",

+      "hoe : 2.5e-05 S.\n",

+      "hie : 2.5 kilo-ohm.\n",

+      "Current amplification factor : 0.99 .\n",

+      "hob : 2.06611570248e-07 .\n",

+      "hib : 20.83 ohm.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "IE = 1.2 * 10**-3          #Emitter current (in Ampere)\n",

+    "beta = 120.0               #Current gain\n",

+    "ro = 40.0 * 10**3          #O/p resistance (in ohm)\n",

+    "hre = 0                    #hre  \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "hfe = beta                 #hfe\n",

+    "hoe = 1/ro                 #hoe (in Siemen)\n",

+    "hie = 25.0*10**-3/IE*beta  #hie (in ohm)\n",

+    "alpha = beta/(1 + beta)    #Current gain in CB\n",

+    "hob = hoe/(1 + beta)       #hob (in Siemen)  \n",

+    "hib = 25 * 10**-3/IE       #hib (in ohm)\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"hfe :\",hfe,\".\"\n",

+    "print \"hoe :\",hoe,\"S.\"\n",

+    "print \"hie :\",hie*10**-3,\"kilo-ohm.\"\n",

+    "print \"Current amplification factor :\",round(alpha,2),\".\"\n",

+    "print \"hob :\",hob,\".\"\n",

+    "print \"hib :\",round(hib,2),\"ohm.\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.9 , Page Number 296 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 33,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Current gain : 99.75 .\n",

+      "Input resistance : 51864.074 ohm.\n",

+      "Voltage gain : 0.9617 .\n",

+      "Overall voltage gain : 0.9435 .\n",

+      "Overall current gain : 1.887 .\n",

+      "Output resistance : 29.69 ohm.\n",

+      "Output conductance : 0.0337 Siemen.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hic = hie = 2.0 * 10**3            #hic (in ohm)\n",

+    "hfe = 100.0                        #Current gain in CE\n",

+    "hre = 2.5 * 10**-4                 #hre\n",

+    "hoe = 25.0 * 10**-6                #hoe (in Ampere per volt)\n",

+    "RS = 1.0 * 10**3                   #Source resistance (in ohm)\n",

+    "RL = 500.0                         #Load resistance (in ohm)\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "hfc = -(1 + hfe)                   #hfc\n",

+    "hrc = 1 - hre                      #hrc\n",

+    "hoc = hoe                          #hoc (in Siemens)\n",

+    "Ai = -hfc/(1 + hoc*RL)             #Current gain\n",

+    "Rin = hic - hrc*hfc/(hoc + 1/RL)   #Input resistance (in ohm)\n",

+    "Av = -hfc/((hoc + 1/RL)*Rin)       #Voltage gain\n",

+    "Avs = Av*Rin/(Rin + RS)            #Overall voltage gain\n",

+    "Ais = Ai*RS/(Rin + RS)             #Overall current gain\n",

+    "Go = hoc  -(hfc*hrc/(hic + RS))    #O/P conductance (in Siemens)\n",

+    "Ro = 1/Go                          #O/P resistance (in ohm)\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Current gain :\",round(Ai,2),\".\"\n",

+    "print \"Input resistance :\",round(Rin,3),\"ohm.\"\n",

+    "print \"Voltage gain :\",round(Av,4),\".\"\n",

+    "print \"Overall voltage gain :\",round(Avs,4),\".\"\n",

+    "print \"Overall current gain :\",round(Ais,3),\".\"\n",

+    "print \"Output resistance :\",round(Ro,2),\"ohm.\"\n",

+    "print \"Output conductance :\",round(Go,4),\"Siemen.\"\n",

+    "\n",

+    "#Slight variations due to higher precision."

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.10 , Page Number 300"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 38,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Power gain :  826.0 .\n",

+      "EMF E :  0.29 V.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hie = 2.0 * 10**3              #hie (in ohm)\n",

+    "hoe = 25.0 * 10**-6            #hoe (in Siemens)\n",

+    "hfe = 55.0                     #Current gain in CE\n",

+    "Pin = 10.0 * 10**-3             #Output power (in watt)\n",

+    "RB = 80.0 * 10**3              #Base resistance (in ohm)\n",

+    "RC = 10.0 * 10**3              #Collector resitance (in ohm)\n",

+    "RL = 10.0 * 10**3              #Load resistance (in ohm)\n",

+    "RS = 5.0 * 10**3               #Source resistance (in ohm)  \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "Zb = hie                       #Zb (in ohm)\n",

+    "Zin = RB                       #Impedance (in ohm)\n",

+    "ZS = RS + Zin                  #Imput impedance (in ohm)\n",

+    "Zout = RC/hoe*(1/(RC + 1/hoe)) #Output impedance (in ohm)\n",

+    "Rac = Zout*RL/(Zout + RL)      #AC load resistance (in ohm)\n",

+    "Vout = -34.3*0.29              #Output voltage (in volts)\n",

+    "Pout = Vout**2/RL              #Output power (in watt) \n",

+    "E = 0.29                       #EMF (in volts)\n",

+    "Ap = Pin/0.29**2*6.95*10**3    #Power gain\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Power gain : \",round(Ap),\".\"\n",

+    "print \"EMF E : \",E,\"V.\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.11 , Page Number 301 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 46,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Input impedance :  0.87 kilo-ohm.\n",

+      "Output impedance :  1.9 kilo-ohm\n",

+      "Current gain :  -43.5 .\n",

+      "Voltage gain :  -100.0 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hie = 1.0 * 10**3            #hie (in ohm)\n",

+    "hfe = 100.0                  #Current gain   \n",

+    "R1 = 20.0 * 10**3            #Resistance1 (in ohm)\n",

+    "R2 = 10 * 10**3              #Resistance2 (in ohm)\n",

+    "hoe = 25.0 * 10**-6          #hoe (in Siemens)\n",

+    "RC = 2* 10**3                #Collector resistance (in ohm)\n",

+    "RL = 2* 10**3                #Load resistance (in ohm)\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "Zb = hie                                   #Zb (in ohm)   \n",

+    "Zin = Zb*R1*R2/(Zb*R1 + Zb*R2 + R1*R2)     #Input impedance (in ohm)\n",

+    "Zout = 1/hoe*RC/(RC + 1/hoe)               #Output impedance (in ohm)\n",

+    "Av = -(RC*RL)/(RC + RL)*hfe/hie            #Voltage gain\n",

+    "RB = R1*R2/(R1 + R2)                       #Base resistance (in ohm)\n",

+    "Ai = -hfe*RB*RC/((RC + RL)*(RB + Zb))      #Current gain\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Input impedance : \",round(Zin * 10**-3,2),\"kilo-ohm.\"\n",

+    "print \"Output impedance : \",round(Zout * 10**-3,1),\"kilo-ohm\"\n",

+    "print \"Current gain : \",round(Ai,1),\".\"\n",

+    "print \"Voltage gain : \",Av,\".\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.12 , Page Number 302 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 56,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Ai :  -100.0 .\n",

+      "Av :  -9.597 .\n",

+      "Avs :  -4.19 .\n",

+      "Rin :  7.74 kilo-ohm.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hie = 1100.0                          #hie (in ohm)\n",

+    "hre = 0                               #hre\n",

+    "hfe = 50.0                            #Current gain \n",

+    "hoe = 100.0                           #hoe  \n",

+    "R1 = 100.0 * 10**3                    #Resistance1 (in ohm)\n",

+    "R2 = 10.0 * 10**3                     #Resistance2 (n ohm)\n",

+    "RE = 1.0 * 10**3                      #Emitter resistance (in ohm)\n",

+    "RL = 5.0 * 10**3                      #Load resistance (in ohm) \n",

+    "RS = 10.0 * 10**3                     #Source resistance (in ohm)  \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "RB = hie + (1 + hfe)*RE                   #Base resistance (in ohm)\n",

+    "Rin = RB*R1*R2/((RB*R1 + RB*R2 + R1*R2))  #Input resistance (in ohm)\n",

+    "Ai = -hoe                                 #Current gain\n",

+    "Av = -hoe*RL/(hie + (1 + hfe)*RE)         #Voltage gain\n",

+    "Avs = Av * Rin/(Rin + RS)                 #Overall voltage gain\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Ai : \",Ai,\".\"\n",

+    "print \"Av : \",round(Av,3),\".\"\n",

+    "print \"Avs : \",round(Avs,2),\".\"\n",

+    "print \"Rin : \",round(Rin*10**-3,2),\"kilo-ohm.\"\n",

+    "\n",

+    "#Slight variation due to higher precision."

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.13 , Page Number 302 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 60,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Quiescent collector current :  1.0 mA.\n",

+      "Small signal voltage gain :  -40.63 .\n",

+      "Maximum possible swing of collector current :  4.55 mA.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "RE = 100.0                #Emitter resistance (in ohm) \n",

+    "RC = 1.0 * 10**3          #Collector resistance (in ohm)\n",

+    "VBE = 0.7                 #Base-emitter voltage (in volts)\n",

+    "RB = 420.0 * 10**3        #Base resistance (in ohm)\n",

+    "beta = 100                #Current gain in CE\n",

+    "VCC = 5.0                 #Collector supply voltage (in volts)  \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "IB = (VCC -VBE)/(RB + (beta + 1)*RE)      #Base current (in Ampere)\n",

+    "ICQ = beta * IB                           #Q-point collector current (in Ampere)\n",

+    "IE = (beta + 1)*IB                        #Emitter current (in Ampere)\n",

+    "r1e = 25.0*10**-3/IE                      #Resistance (in ohm)  \n",

+    "Rin = RB*(beta*r1e)/(RB + beta*r1e)       #Input resistance (in ohm)\n",

+    "Rout = RC                                 #Output resistance (in ohm)\n",

+    "Av = -ICQ/IB*Rout/Rin                     #Small signal voltage gain \n",

+    "swing = VCC/(RC + RE)                     #Max. possible swing (in Ampere) \n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Quiescent collector current : \",round(ICQ*10**3,3),\"mA.\"\n",

+    "print \"Small signal voltage gain : \",round(Av,2),\".\"\n",

+    "print \"Maximum possible swing of collector current : \",round(swing*10**3,2),\"mA.\"\n",

+    "\n",

+    "#Slight variation due to high precision."

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.14 , Page Number 303 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 9,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "1.20603015075e-05 0.00156783919598 0.00156783919598 0.00157989949749\n",

+      "ICQ :  0.945 mA and VCEQ :  2.251 V.\n",

+      "VCE when R2 is open circuited :  -8.117 V.\n",

+      "AV :  -455.0 .\n",

+      "Rin :  1.0 kilo-ohm.\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "beta = hfe = 130                  #Current gain in CE\n",

+    "R1 = 510.0 * 10**3                #Resistance1 (in ohm)\n",

+    "R2 = 510.0 * 10**3                #Resistance2 (n ohm)\n",

+    "RE = 7.5 * 10**3                  #Emitter resistance (in ohm)\n",

+    "RC = 9.1 * 10**3                  #Collector resistance (in ohm)\n",

+    "VCC = 18.0                        #Collector supply voltage (in volts)\n",

+    "VBE = 0                           #Base-Emitter voltage (in volts)\n",

+    "hie = 1.0 * 10**3                 #hie (in ohm)\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "Rth = R1*R2/(R1 + R2)             #Thevenin's eq. resistance (in ohm)\n",

+    "Vth = VCC * R2/(R1 + R2)          #Thevenin's eq. voltage (in volts)\n",

+    "IB = (Vth - VBE)/(Rth + (beta + 1)*RE)           #Base current (in Ampere)\n",

+    "IC = beta*IB                      #Collector current (in Ampere)\n",

+    "ICQ = IC                          #Q-point IC (in Ampere)\n",

+    "IE = (beta + 1)*IB                #Emitter current (in Ampere)\n",

+    "VCEQ = VCC - ICQ*RC - IE*RE       #Q-point VCE (in Ampere)    \n",

+    "\n",

+    "IB1 = (VCC - VBE)/(R1 + (beta + 1)*RE)           #Base current1 (in Ampere)\n",

+    "IC1 = beta*IB1                    #Collector current1 (in Ampere) \n",

+    "ICQ1 = IC1                        #Q-point IC (in Ampere)\n",

+    "IE1 = (beta + 1)*IB1              #Emitter current1 (in Ampere)\n",

+    "VCEQ1 = VCC - ICQ1*RC - IE1*RE    #Q-point VCE (in Ampere)    \n",

+    "\n",

+    "Rin = (R1*R2*hie)/(R1*R2 + hie*R2 + hie*R1)      #Input resistance (in ohm)\n",

+    "Av = -50/hie*RC                  #Voltage gain        \n",

+    "\n",

+    "#Result\n",

+    "print IB1,IC1,ICQ1,IE1\n",

+    "print \"ICQ : \",round(ICQ*10**3,3),\"mA and VCEQ : \",round(VCEQ,3),\"V.\"\n",

+    "print \"VCE when R2 is open circuited : \",round(VCEQ1,3),\"V.\"\n",

+    "print \"AV : \",round(Av,3),\".\"\n",

+    "print \"Rin : \",round(Rin*10**-3,2),\"kilo-ohm.\"\n",

+    "\n",

+    "#Mistake in book for the value of hfe in calculation of Av."

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.15 , Page Number 304 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 10,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Zin :  1.595  kilo-ohm.\n",

+      "Zout :  4.296  kilo-ohm.\n",

+      "Av :  -323.125 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hfe = 110                     #Current gain in CE\n",

+    "hie = 1.6 * 10**3             #hie (in ohm)\n",

+    "hre = 2 * 10**-4              #hre\n",

+    "hoe = 20.0 * 10**-6           #hoe (in Ampere per volt)      \n",

+    "RB = 470.0 * 10**3            #Base resistance (in ohm)\n",

+    "RC = 4.7 * 10**3              #Collector resistance (in ohm)\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "Zin = RB*hie/(RB + hie)       #Input impedance (in ohm)\n",

+    "Zout = RC*1/hoe/(RC + 1/hoe)  #Output impedance (in ohm)\n",

+    "Av = -RC*hfe/hie              #Voltage gain  \n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Zin : \",round(Zin*10**-3,3),\" kilo-ohm.\"\n",

+    "print \"Zout : \",round(Zout*10**-3,3),\" kilo-ohm.\"\n",

+    "print \"Av : \",round(Av,3),\".\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.16 , Page Number 307 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 13,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Zin :  24.84  ohm.\n",

+      "Zout :  7.97  kilo-ohm.\n",

+      "Av :  134.4 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hib = 25.0                            #hie (in ohm)\n",

+    "hfb = -0.98                           #Current gain in CB \n",

+    "hob = 0.5 * 10**-6                    #hob (in Siemens)  \n",

+    "R1 = 20.0 * 10**3                     #Resistance1 (in ohm)\n",

+    "R2 = 5.0 * 10**3                      #Resistance2 (n ohm)\n",

+    "RE = 4.0 * 10**3                      #Emitter resistance (in ohm)\n",

+    "RL = 6.0 * 10**3                      #Load resistance (in ohm) \n",

+    "RC = 8.0 * 10**3                      #Collector resistance (in ohm)  \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "Zin = hib*RE/(hib + RE)               #Input impedance (in ohm)\n",

+    "Zout = RC*1/hob/(RC + 1/hob)          #Output impedance (in ohm)\n",

+    "Av = -(RC*RL)/(RC+RL)*hfb/hib         #Voltage gain  \n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Zin : \",round(Zin,2),\" ohm.\"\n",

+    "print \"Zout : \",round(Zout*10**-3,2),\" kilo-ohm.\"\n",

+    "print \"Av : \",round(Av,3),\".\"\n",

+    "\n",

+    "#Slight variation due to higher precision."

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.17 , Page Number 309 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 18,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Input impedance :  4.9 kilo-ohm.\n",

+      "Outpur impedance :  28.0 ohm.\n",

+      "Voltage gain :  1 .\n",

+      "Current gain :  101.0 .\n",

+      "Power gain :  101.0 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hie = 2000.0                          #hie (in ohm)\n",

+    "hfe = 100.0                           #Current gain  \n",

+    "R1 = 10.0 * 10**3                     #Resistance1 (in ohm)\n",

+    "R2 = 10.0 * 10**3                     #Resistance2 (n ohm)\n",

+    "RE = 5.0 * 10**3                      #Emitter resistance (in ohm)\n",

+    "RL = 5.0 * 10**3                      #Load resistance (in ohm) \n",

+    "RS = 1.0 * 10**3                      #Source resistance (in ohm)  \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "hic = hie                             #hic\n",

+    "hfc = -(1 + hfe)                      #hfc\n",

+    "Zb = hic - hfc*(RE*RL)/(RE + RL)      #ZB (in ohm)\n",

+    "Zin = Zb*R1*R2/(Zb*R1 + R1*R2 + Zb*R2)#Input impedance (in ohm)\n",

+    "Ze = -(hic + (R1*R2*RS/(R1*R2 + R2*RS + R1*RS)))/hfc    #Ze (in ohm)\n",

+    "Zout = Ze*RE/(Ze + RE)                #Output impedance (in ohm)  \n",

+    "Av = 1                                #Coltage gain\n",

+    "RB = R1*R2/(R1 + R2)                  #Base resistance (in ohm)\n",

+    "Ai = -hfc                             #Current gain\n",

+    "Ap = Ai                               #Power gain\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Input impedance : \",round(Zin * 10**-3,1),\"kilo-ohm.\"\n",

+    "print \"Outpur impedance : \",round(Zout),\"ohm.\"\n",

+    "print \"Voltage gain : \",Av,\".\"\n",

+    "print \"Current gain : \",Ai,\".\"\n",

+    "print \"Power gain : \",Ap,\".\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.18 , Page Number 310 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 4,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Input impedance :  227.667 kilo-ohm.\n",

+      "Voltage gain :  0.9956 .\n",

+      "Current gain :  45.33 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "RL = 5.0 * 10**3                      #Load resistance (in ohm) \n",

+    "RS = 0.5 * 10**3                      #Source resistance (in ohm)  \n",

+    "hie = 1000.0                          #hie (in ohm)\n",

+    "hfe = 50.0                            #Current gain  \n",

+    "hoe = 25.0 * 10**-6                   #hor (in Siemens)  \n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "hic = hie                             #hie (in ohm)\n",

+    "hrc = 1                               #hrc\n",

+    "hfc = -(1 + hfe)                      #hfc \n",

+    "hoc = hoe                             #hoe (in Siemens)\n",

+    "Ai = -hfc/(1 + hoc*RL)                #Current gain\n",

+    "Ri = hic - hrc*hfc/(hoc + 1/RL)       #Input resistance (in ohm)\n",

+    "Av = Ai*RL/Ri                         #Voltage gain\n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Input impedance : \",round(Ri * 10**-3,3),\"kilo-ohm.\"\n",

+    "print \"Voltage gain : \",round(Av,4),\".\"\n",

+    "print \"Current gain : \",round(Ai,2),\".\""

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.19 , Page Number 310"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 10,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Input impedance :  34.254 kilo-ohm.\n",

+      "Outpur impedance :  21.1 ohm.\n",

+      "Voltage gain :  0.9789 .\n",

+      "Current gain :  33.53 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "VCC = 15.0               #Collector supply voltage (in volts)\n",

+    "RB = 100.0 * 10**3       #Base resistance (in ohm)\n",

+    "RE = 1.0 * 10**3         #Emitter resistance (in ohm)\n",

+    "hie = 1100.0             #hie (in ohm)\n",

+    "hfe = 50                 #hfe\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "hic = hie                #hic (in ohm)\n",

+    "hfc = -(1 + hfe)         #hfc\n",

+    "Zin = (hic - hfc*RE)*RB/((hic - hfc*RE) + RB)     #Input impedance (in ohm)\n",

+    "\n",

+    "Zout = RE*(-hic/hfc)/(RE - hic/hfc)               #Output impedance (in ohm)\n",

+    "Av = -hfc*RE/(hic - hfc*RE)                       #Voltage gain\n",

+    "Ai = Av*Zin/RE                                    #Current gain \n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Input impedance : \",round(Zin * 10**-3,3),\"kilo-ohm.\"\n",

+    "print \"Outpur impedance : \",round(Zout,1),\"ohm.\"\n",

+    "print \"Voltage gain : \",round(Av,4),\".\"\n",

+    "print \"Current gain : \",round(Ai,2),\".\"\n",

+    "\n",

+    "#Calculation mistake in the value of Zout in the book."

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "##Example 8.20 , Page Number 311 "

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 13,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "Zin :  1.0883 kilo-ohm.\n",

+      "Av :  0.99 .\n"

+     ]

+    }

+   ],

+   "source": [

+    "#Variables\n",

+    "\n",

+    "hre = hoe = 0                   #hre\n",

+    "hie = 1.0 * 10**3               #hie (in ohm)\n",

+    "hfe = 100.0                     #hfe\n",

+    "VCC = 5.0                       #Collector supply voltage (in volts) \n",

+    "R1 = 2.2 * 10**3                #Resistance1 (in ohm)\n",

+    "R2 = 2.2 * 10**3                #Resistance2 (in ohm)\n",

+    "RE = 1.0 * 10**3                #Emitter resistance (in ohm)\n",

+    "\n",

+    "#Calculation\n",

+    "\n",

+    "hic = hie                       #hic (in ohm)\n",

+    "hfc = -(1 + hfe)                #hfc  \n",

+    "hrc = 1 - hre                   #hrc\n",

+    "hoc = hoe = 0                   #hoc\n",

+    "Zin = (hic - hfc*RE)*R1*R2/(((hic - hfc*RE)*(R1+R2))+R1*R2)     #Input impedance (in ohm)\n",

+    "Av = -hfc*RE/(hic - hfc*RE)     #Voltage gain \n",

+    "\n",

+    "#Result\n",

+    "\n",

+    "print \"Zin : \",round(Zin*10**-3,4),\"kilo-ohm.\"\n",

+    "print \"Av : \",round(Av,2),\".\""

+   ]

+  }

+ ],

+ "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

+}