Added(A)/Deleted(D) following books

 R  _A_Textbook_Of_Engineering_Physics/Chapter11.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter11.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter11_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter11_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter12.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter12.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter12_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter12_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter13.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter13.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter13_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter13_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter14.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter14.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter14_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter14_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter15.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter15.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter15_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter15_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter16.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter16.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter16_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter16_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter17.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter17.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter17_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter17_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter18.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter18.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter18_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter18_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter19.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter19.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter19_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter19_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter21.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter21.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter21_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter21_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter22.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter22.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter22_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter22_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter23.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter23.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter23_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter23_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter24.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter24.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter24_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter24_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter4.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter4.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter4_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter4_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter5.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter5.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter5_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter5_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter6.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter6.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter6_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter6_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter7.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter7.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter7_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter7_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter8.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter8.ipynb
R  _A_Textbook_Of_Engineering_Physics/Chapter8_1.ipynb -> A_Textbook_Of_Engineering_Physics/Chapter8_1.ipynb
R  _A_Textbook_Of_Engineering_Physics/README.txt -> A_Textbook_Of_Engineering_Physics/README.txt
R  _A_Textbook_Of_Engineering_Physics/screenshots/Chapter11.png -> A_Textbook_Of_Engineering_Physics/screenshots/Chapter11.png
R  _A_Textbook_Of_Engineering_Physics/screenshots/Chapter11_1.png -> A_Textbook_Of_Engineering_Physics/screenshots/Chapter11_1.png
R  _A_Textbook_Of_Engineering_Physics/screenshots/Chapter12.png -> A_Textbook_Of_Engineering_Physics/screenshots/Chapter12.png
R  _A_Textbook_Of_Engineering_Physics/screenshots/Chapter12_1.png -> A_Textbook_Of_Engineering_Physics/screenshots/Chapter12_1.png
R  _A_Textbook_Of_Engineering_Physics/screenshots/Chapter13.png -> A_Textbook_Of_Engineering_Physics/screenshots/Chapter13.png
R  _A_Textbook_Of_Engineering_Physics/screenshots/Chapter13_1.png -> A_Textbook_Of_Engineering_Physics/screenshots/Chapter13_1.png
D  About_Mumbai_by_sd/hemla.ipynb
D  About_Mumbai_by_sd/screenshots/warning.png
D  About_Mumbai_by_sd/screenshots/warning_1.png
D  About_Mumbai_by_sd/screenshots/warning_2.png
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/CHapter_17_Homogeneous_Chemical_Reactions.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/CHapter_17_Homogeneous_Chemical_Reactions.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/CHapter_17_Homogeneous_Chemical_Reactions_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/CHapter_17_Homogeneous_Chemical_Reactions_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_10_Absorbption.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_10_Absorbption.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_10_Absorption.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_10_Absorption.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_11_Mass_Transfer_in_Biology_and_Medicine.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_11_Mass_Transfer_in_Biology_and_Medicine.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_11_Mass_Transfer_in_Biology_and_Medicine_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_11_Mass_Transfer_in_Biology_and_Medicine_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_12_Diffrential_Distillation.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_12_Diffrential_Distillation.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_12_Diffrential_Distillation_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_12_Diffrential_Distillation_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_13_Staged_Distillation.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_13_Staged_Distillation.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_13_Staged_Distillation_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_13_Staged_Distillation_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_14_Extraction.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_14_Extraction.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_14_Extraction_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_14_Extraction_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_15_Adsorption.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_15_Adsorption.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_15_Adsorption_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_15_Adsorption_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_16_General_Questions_and_Heterogeneous_Chemical_Reactions.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_16_General_Questions_and_Heterogeneous_Chemical_Reactions.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_16_General_Questions_and_Heterogeneous_Chemical_Reactions_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_16_General_Questions_and_Heterogeneous_Chemical_Reactions_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_18_Membranes.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_18_Membranes.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_18_Membranes_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_18_Membranes_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_19_Controlled_Release_and_Related_Phenomena.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_19_Controlled_Release_and_Related_Phenomena.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_19_Controlled_Release_and_Related_Phenomena_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_19_Controlled_Release_and_Related_Phenomena_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_20_Heat_Transfer.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_20_Heat_Transfer.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_20_Heat_Transfer_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_20_Heat_Transfer_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_21_Simultaneous_Heat_and_Mass_Transfer.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_21_Simultaneous_Heat_and_Mass_Transfer.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_21_Simultaneous_Heat_and_Mass_Transfer_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_21_Simultaneous_Heat_and_Mass_Transfer_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_3_Diffusion_in_Concentrated_Solution.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_3_Diffusion_in_Concentrated_Solution.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_3_Diffusion_in_Concentrated_Solution_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_3_Diffusion_in_Concentrated_Solution_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_4_Dispersion.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_4_Dispersion.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_4_Dispersion_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_4_Dispersion_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_5_Values_of_Diffusion_Coefficient.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_5_Values_of_Diffusion_Coefficient.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_5_Values_of_Diffusion_Coefficient_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_5_Values_of_Diffusion_Coefficient_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_6_Diffusion_of_Interacting_Species.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_6_Diffusion_of_Interacting_Species.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_6_Diffusion_of_Interacting_Species_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_6_Diffusion_of_Interacting_Species_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_8_Fundamentals_of_Mass_Transfer_.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_8_Fundamentals_of_Mass_Transfer_.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_8_Fundamentals_of_Mass_Transfer__1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_8_Fundamentals_of_Mass_Transfer__1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_9__Theories_of_Mass_Transfer.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_9__Theories_of_Mass_Transfer.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_9__Theories_of_Mass_Transfer_1.ipynb -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/Chapter_9__Theories_of_Mass_Transfer_1.ipynb
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/README.txt -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/README.txt
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems/screenshots/CH19.png -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/screenshots/CH19.png
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems/screenshots/CH3.png -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/screenshots/CH3.png
R  _Diffusion:_Mass_Transfer_In_Fluid_Systems/screenshots/CH5.png -> Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/screenshots/CH5.png
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/README.txt -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/README.txt
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch10.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch10.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch10_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch10_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch11.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch11.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch11_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch11_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch12.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch12.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch12_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch12_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch1_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch1_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch2.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch2.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch2_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch2_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch3.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch3.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch3_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch3_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch4.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch4.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch4_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch4_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch5.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch5.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch5_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch5_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch6.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch6.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch6_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch6_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch7.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch7.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch7_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch7_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch8.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch8.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch8_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch8_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch9.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch9.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch9_1.ipynb -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/ch9_1.ipynb
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/energy_stored3.png -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/energy_stored3.png
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/energy_stored3_1.png -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/energy_stored3_1.png
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/magnetic_flux12.png -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/magnetic_flux12.png
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/magnetic_flux12_1.png -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/magnetic_flux12_1.png
R  _Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/pitch_factor7.png -> Electric_Machinery_And_Transformers_by_B._S._Guru_And_H._R._Hiziroglu/screenshots/pitch_factor7.png
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A  Electrical_And_Electronics_Engineering_Materials_by_J._B._Gupta/chap1.ipynb
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A  Electrical_And_Electronics_Engineering_Materials_by_J._B._Gupta/chap4.ipynb
A  Electrical_And_Electronics_Engineering_Materials_by_J._B._Gupta/chap5.ipynb
A  Electrical_And_Electronics_Engineering_Materials_by_J._B._Gupta/chap6.ipynb
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R  _Engineering_Thermodynamics_by__O._Singh/README.txt -> Engineering_Thermodynamics_by__O._Singh/README.txt
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R  _Engineering_Thermodynamics_by__O._Singh/chapter11.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter11.ipynb
R  _Engineering_Thermodynamics_by__O._Singh/chapter11_1.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter11_1.ipynb
R  _Engineering_Thermodynamics_by__O._Singh/chapter11_2.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter11_2.ipynb
R  _Engineering_Thermodynamics_by__O._Singh/chapter11_3.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter11_3.ipynb
R  _Engineering_Thermodynamics_by__O._Singh/chapter12.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter12.ipynb
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R  _Engineering_Thermodynamics_by__O._Singh/chapter13.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter13.ipynb
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R  _Engineering_Thermodynamics_by__O._Singh/chapter3.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter3.ipynb
R  _Engineering_Thermodynamics_by__O._Singh/chapter3_1.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter3_1.ipynb
R  _Engineering_Thermodynamics_by__O._Singh/chapter3_2.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter3_2.ipynb
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R  _Engineering_Thermodynamics_by__O._Singh/chapter4.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter4.ipynb
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R  _Engineering_Thermodynamics_by__O._Singh/chapter4_2.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter4_2.ipynb
R  _Engineering_Thermodynamics_by__O._Singh/chapter4_3.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter4_3.ipynb
R  _Engineering_Thermodynamics_by__O._Singh/chapter5.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter5.ipynb
R  _Engineering_Thermodynamics_by__O._Singh/chapter5_1.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter5_1.ipynb
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R  _Engineering_Thermodynamics_by__O._Singh/chapter9.ipynb -> Engineering_Thermodynamics_by__O._Singh/chapter9.ipynb
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R  _Mastering_C++/screenshots/IMG-20150619-WA0002.png -> Mastering_C++_by_K_R_Venugopal_and_Rajkumar_Buyya/screenshots/IMG-20150619-WA0002.png
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter01-Fiber_Optics_Communications_System.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter01-Fiber_Optics_Communications_System.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter02-Optical_Fiber_for_Telecommunication.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter02-Optical_Fiber_for_Telecommunication.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter03-Optical_Sources_and_Transmitters.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter03-Optical_Sources_and_Transmitters.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter04-Optical_Detectors_and_Receivers.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter04-Optical_Detectors_and_Receivers.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter05-Design_Considerations_in_Optical_Links.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter05-Design_Considerations_in_Optical_Links.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter1.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter1.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter2.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter2.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter3.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter3.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter4.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter4.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter5.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter5.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter6-Advanced_Optical_Systems.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter6-Advanced_Optical_Systems.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/Chapter6.ipynb -> Optical_Fiber_Communication_by_V._S._Bagad/Chapter6.ipynb
R  _Optical_Fiber_Communication_by_V._S._Bagad/README.txt -> Optical_Fiber_Communication_by_V._S._Bagad/README.txt
R  _Optical_Fiber_Communication/screenshots/Chapter01-Ex1.7.1.png -> Optical_Fiber_Communication_by_V._S._Bagad/screenshots/Chapter01-Ex1.7.1.png
R  _Optical_Fiber_Communication/screenshots/Chapter02-Ex2.2.1.png -> Optical_Fiber_Communication_by_V._S._Bagad/screenshots/Chapter02-Ex2.2.1.png
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A  Optical_Fiber_Communication_by_V._S._Bagad/screenshots/ch3.png
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R  _Optical_Fiber_Communication/screenshots/chapter5.png -> Optical_Fiber_Communication_by_V._S._Bagad/screenshots/chapter5.png
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D  Short_Course_by_e/hemla.ipynb
D  Short_Course_by_e/hemla_1.ipynb
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R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/Chapter_10_SILICON_CONTROLLED_RECTIFIER.ipynb -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/Chapter_10_SILICON_CONTROLLED_RECTIFIER.ipynb
R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/Chapter_1_CRYSTAL_STRUCTURES.ipynb -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/Chapter_1_CRYSTAL_STRUCTURES.ipynb
R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/Chapter_6_ELECTRICAL_BREAKDOWN_IN_PN_JUNCTIONS.ipynb -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/Chapter_6_ELECTRICAL_BREAKDOWN_IN_PN_JUNCTIONS.ipynb
R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_2_ENERGY_BAND_THEORY_OF_SOLIDS.ipynb -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_2_ENERGY_BAND_THEORY_OF_SOLIDS.ipynb
R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_3_CARRIER_TRANSPORT_IN_SEMICONDUCTOR.ipynb -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_3_CARRIER_TRANSPORT_IN_SEMICONDUCTOR.ipynb
R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_4__EXCESS_CARRIER_IN_SEMICONDUCTOR.ipynb -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_4__EXCESS_CARRIER_IN_SEMICONDUCTOR.ipynb
R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_5_PN_JUNCTION_DIODE.ipynb -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_5_PN_JUNCTION_DIODE.ipynb
R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_7_BIPOLAR_JUNCTION_TRANSISTORB.ipynb -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_7_BIPOLAR_JUNCTION_TRANSISTORB.ipynb
R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_8_THE_FIELD_EFFECT_TRANSISTOR.ipynb -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/chapter_8_THE_FIELD_EFFECT_TRANSISTOR.ipynb
R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/screenshots/Screen_Shot_2015-11-05_at_11.31.11_pm.png -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/screenshots/Screen_Shot_2015-11-05_at_11.31.11_pm.png
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R  _Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/screenshots/Screen_Shot_2015-11-05_at_11.33.45_pm.png -> Solid_State_Devices_by_B._S._Nair_and_S._R._Deepa/screenshots/Screen_Shot_2015-11-05_at_11.33.45_pm.png
D  Test/README.txt
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D  TestContribution/README.txt
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D  TestContribution/exampleCount.py
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D  Testing_Textbook_Companion_Directory/chapter2.ipynb
D  Testing_Textbook_Companion_Directory/chapter5.ipynb
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D  Testing_the_interface/README.txt
D  Testing_the_interface/chapter1.ipynb
D  Testing_the_interface/chapter11.ipynb
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D  Testing_the_interface/chapter8_3.ipynb
D  Testing_the_interface/screenshots/screen1.png
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R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter1.ipynb
R  _Theory_Of_Machines/Chapter10.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter10.ipynb
R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter10_1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter10_1.ipynb
R  _Theory_Of_Machines/Chapter11.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter11.ipynb
R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter11_1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter11_1.ipynb
R  _Theory_Of_Machines/Chapter12.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter12.ipynb
R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter12_1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter12_1.ipynb
R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter1_1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter1_1.ipynb
R  _Theory_Of_Machines/Chapter2.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter2.ipynb
R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter2_1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter2_1.ipynb
R  _Theory_Of_Machines/Chapter3.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter3.ipynb
R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter3_1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter3_1.ipynb
R  _Theory_Of_Machines/Chapter4.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter4.ipynb
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R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter5_1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter5_1.ipynb
R  _Theory_Of_Machines/Chapter6.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter6.ipynb
R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter6_1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter6_1.ipynb
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R  _Theory_Of_Machines_by__B._K._Sarkar/Chapter7_1.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter7_1.ipynb
R  _Theory_Of_Machines/Chapter8.ipynb -> Theory_Of_Machines_by__B._K._Sarkar/Chapter8.ipynb
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R  _Theory_Of_Machines_by__B._K._Sarkar/README.txt -> Theory_Of_Machines_by__B._K._Sarkar/README.txt
R  _Theory_Of_Machines_by__B._K._Sarkar/screenshots/chapter1.png -> Theory_Of_Machines_by__B._K._Sarkar/screenshots/chapter1.png
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D  _Diffusion:_Mass_Transfer_In_Fluid_Systems_by__E._L._Cussler/screenshots/CH19.png
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D  _Theory_Of_Machines_by__B._K._Sarkar/Chapter12.ipynb
D  _Theory_Of_Machines_by__B._K._Sarkar/Chapter2.ipynb
D  _Theory_Of_Machines_by__B._K._Sarkar/Chapter3.ipynb
D  _Theory_Of_Machines_by__B._K._Sarkar/Chapter4.ipynb
D  _Theory_Of_Machines_by__B._K._Sarkar/Chapter6.ipynb
D  _Theory_Of_Machines_by__B._K._Sarkar/Chapter7.ipynb
D  _Theory_Of_Machines_by__B._K._Sarkar/Chapter8.ipynb
D  _Theory_Of_Machines_by__B._K._Sarkar/Chapter9.ipynb
D  abcd_by_cbvbv/Chapter1.ipynb
D  abcd_by_cbvbv/Chapter1_1.ipynb
D  abcd_by_cbvbv/screenshots/k1.png
D  abcd_by_cbvbv/screenshots/k2.png
D  abcd_by_cbvbv/screenshots/k2_1.png
D  abcd_by_cbvbv/screenshots/k3.png
D  abcd_by_cbvbv/screenshots/k3_1.png
D  abcd_by_cbvbv/screenshots/k3_2.png
D  t_by_t/README.txt
D  t_by_t/anubhav.ipynb
D  t_by_t/screenshots/blank1.png
D  t_by_t/screenshots/blank1_(another_copy).png
D  t_by_t/screenshots/blank1_(copy).png

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-{
- "metadata": {
-  "name": "",
-  "signature": "sha256:9826abe74c775578903ec0e922c705aacf445defe2dc3badb10ce4727f434663"
- },
- "nbformat": 3,
- "nbformat_minor": 0,
- "worksheets": [
-  {
-   "cells": [
-    {
-     "cell_type": "heading",
-     "level": 1,
-     "metadata": {},
-     "source": [
-      "Chapter2-Compressible Flow with Friction and Heat: A Review"
-     ]
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex1-pg19"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#what is the gas constant of air and density of air\n",
-      "import math\n",
-      "#intilization variable\n",
-      "p=3*10**6 ; #pressure in Pa\n",
-      "t=298. ; #temperatue in kelvin\n",
-      "mw= 29.; #molecular weight in kg/mol\n",
-      "ru=8314.; #universal constant in J/kmol.K\n",
-      "r=ru/mw ;\n",
-      "#using perfect gas law to get density:\n",
-      "rho=p/(r*t) ;\n",
-      "print'%s %.2f %s'%('Gas constant of air in',r,'J/kg.K')\n",
-      "print'%s %.1f %s'%('Density of air in',rho,'kg/m^3')"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Gas constant of air in 286.69 J/kg.K\n",
-        "Density of air in 35.1 kg/m^3\n"
-       ]
-      }
-     ],
-     "prompt_number": 1
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex2-pg23"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#find out the exit temperature and exit density by various methods \n",
-      "import math\n",
-      "t1=288.; #inlet temperture in Kelvin\n",
-      "p1=100*10**3; #inlet pressure in Pa\n",
-      "p2=1*10**6 #exit pressure in Pa\n",
-      "gma=1.4; #gamma.\n",
-      "rg=287.; #gas constant in J/kg.K\n",
-      "t2=t1*(p2/p1)**((gma-1)/gma);   #exit temperature \n",
-      "print'%s %.5f %s'%('Exit temperature in',t2,'K')\n",
-      "#first method to find exit density:\n",
-      "#application of perfect gas law at exit\n",
-      "rho=p2/(rg*t2); #rho= exit density.\n",
-      "print'%s %.7f %s'%('exit density at by method 1 in',rho,'kg/m^3')\n",
-      "#method 2: using isentropic relation between inlet and exit density.\n",
-      "rho1=p1/(rg*t1); #inlet density.\n",
-      "rho=rho1*(p2/p1)**(1/gma);\n",
-      "print'%s %.2f %s'%('exit density by method 2 in',rho,'kg/m^3')\n",
-      "\n",
-      "                                                     "
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Exit temperature in 556.04095 K\n",
-        "exit density at by method 1 in 6.2663021 kg/m^3\n",
-        "exit density by method 2 in 6.27 kg/m^3\n"
-       ]
-      }
-     ],
-     "prompt_number": 2
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex3-pg25"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#what is the rate of mass flow through exit \n",
-      "import math\n",
-      "d1=1.2 #inlet 1 density in kg/m^3.\n",
-      "u1=25. # inlet 1 veocity in m/s.\n",
-      "a1=0.25 #inlet 1 area in m^2.\n",
-      "d2=0.2 #inlet 2 density in kg/m^3.\n",
-      "u2=225. #inlet 2 velocity in m/s.\n",
-      "a2=0.10 #inlet 2 area in m^2.\n",
-      "m1=d1*a1*u1; #rate of mass flow entering inlet 1.\n",
-      "m2=d2*u2*a2; #rate of mass flow entering inlet 2.\n",
-      "#since total mass in=total mass out,\n",
-      "m3=m1+m2; #m3=rate of mass flow through exit.\n",
-      "print'%s %.f %s'%('Rate of mass flow through exit in',m3,' kg/s')\n",
-      "\n"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Rate of mass flow through exit in 12  kg/s\n"
-       ]
-      }
-     ],
-     "prompt_number": 4
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex4-pg27"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#what is the axial force needed to support the plate and lateral force needed to support the plate\n",
-      "import math\n",
-      "u1=2 #speed of water going on the plate. X-component in m/s.\n",
-      "v1=0 #speed of water going on the plate. Y-component in m/s.\n",
-      "u2=1 #speed of water going on the plate. X-component in m/s.\n",
-      "v2=1.73 #speed of water going on the plate Y-coponent in m/s.\n",
-      "m=0.1 #rate of flow of mass of the water on the plate in kg/s.\n",
-      "#Using Newton's second law.\n",
-      "Fx=m*(u2-u1); #X-component of force exerted by water\n",
-      "print'%s %.1f %s'%('Axial force needed to support the plate in',Fx,'N')\n",
-      "Fy=m*(v2-v1); #Y-component of force exerted by water.\n",
-      "print'%s %.3f %s'%('Lateral force needed to support the plate in',Fy,'N')\n"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Axial force needed to support the plate in -0.1 N\n",
-        "Lateral force needed to support the plate in 0.173 N\n"
-       ]
-      }
-     ],
-     "prompt_number": 5
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex5-pg29"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#calculate the Exit total and static temperature \n",
-      "m=50 #mass flow rate in kg/s.\n",
-      "T1=298 #inlet temperature in K.\n",
-      "u1=150 #inlet velocity in m/s.\n",
-      "cp1=1004 #specific heat at constant pressure of inlet in J/kg.K.\n",
-      "gm=1.4 #gamma.\n",
-      "u2=400 # exit velocity in m/s.\n",
-      "cp2=1243. #specific heat at constant pressure of exit in J/kg.K.\n",
-      "q=42*10**6 #heat transfer rate in control volume in Watt.\n",
-      "me=-100*10**3 #mechanical power in Watt.\n",
-      "#first calculate total enthalpy at the inlet:\n",
-      "ht1=cp1*T1+(u1**2)/2; #ht1=Total inlet enthalpy.\n",
-      "#now applying conservation of energy equation:\n",
-      "ht2=ht1+((q-me)/m) #ht2=Total enthalpy at exit.\n",
-      "Tt2=ht2/cp2; #Tt2=Total exit temperature.\n",
-      "T2=Tt2-((u2**2)/(2*cp2)); #T2=static exit temperature.\n",
-      "print'%s %.5f %s'%('Exit total temperature in',Tt2,'K')\n",
-      "print'%s %.4f %s'%('Exit static temperature in',T2,'K')"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Exit total temperature in 927.14562 K\n",
-        "Exit static temperature in 862.7852 K\n"
-       ]
-      }
-     ],
-     "prompt_number": 6
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex6-pg65"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#intilization variable\n",
-      "import math\n",
-      "d=0.2 #Diameter in meters.\n",
-      "M1=0.2 #inlet Mach no.\n",
-      "p1=100*10**3 #inlet pressure in Pa\n",
-      "Tt1=288. #total inlet temperature in K\n",
-      "q=100*10**3 #rate of heat transfer to fluid in Watt.\n",
-      "rg=287. #Gas constant in J/kg.K.\n",
-      "gm=1.4 #gamma\n",
-      "#(a)inlet mass flow:\n",
-      "m=((gm/rg)**(1./2.))*(p1/(Tt1)**(1./2.))*3.14*(d*d)/4.*(M1/(1.+((gm-1.)/2.)*(M1**2.))**((gm+1.)/(2.*(gm-1.))));\n",
-      "\n",
-      "#(b)\n",
-      "qm=q/m; #Heat per unit mass.\n",
-      "#Tt1/Tcr=0.1736, pt1/Pcr=1.2346, ((Delta(s)/R)1=6.3402,p1/Pcr=2.2727)\n",
-      "Tcr=Tt1/0.1736;\n",
-      "\n",
-      "Pcr=p1/2.2727;\n",
-      "#From energy equation:\n",
-      "cp=(gm/(gm-1.))*rg;\n",
-      "Tt2=Tt1+(q/cp);\n",
-      "q1cr=cp*(Tcr-Tt1)/1000.;\n",
-      "M2=0.22;\n",
-      "#From table : pt2/Pcr=1.2281, (Delta(s)/R)2=5.7395, p2/Pcr=2.2477.\n",
-      "#The percent total pressure drop is (((pt1/Pcr)-(pt2/Pcr))/(pt1/Pcr))*100.\n",
-      "p2=2.2477*Pcr;\n",
-      "dp=((1.2346-1.2281)/1.2346)*100;\n",
-      "#Entropy rise is the difference between (delta(s)/R)1 and (delta(s)/R)2.\n",
-      "ds=6.3402-5.7395;\n",
-      "#Static pressure drop in duct due to heat transfer is\n",
-      "dps=((p1/Pcr)-(p2/Pcr))*Pcr/1000.;\n",
-      "print'%s %.7f %s'%('Mass flow rate through duct in',m,'kg/s')\n",
-      "print'%s %.4f %s'%('Critical heat flux that would choke the duct for the M1 in',q1cr,'kJ/kg')\n",
-      "print'%s %.2f %s'%('The exit Mach No.',M2,'')\n",
-      "print'%s %.7f %s'%('The percent total pressure loss',dp,'%')\n",
-      "print'%s %.4f %s'%('The entropy rise',ds,'')\n",
-      "print'%s %.7f %s'%('The static pressure drop in ',dps,'kPa')"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Mass flow rate through duct in 2.5235091 kg/s\n",
-        "Critical heat flux that would choke the duct for the M1 in 1377.1556 kJ/kg\n",
-        "The exit Mach No. 0.22 \n",
-        "The percent total pressure loss 0.5264863 %\n",
-        "The entropy rise 0.6007 \n",
-        "The static pressure drop in  1.1000132 kPa\n"
-       ]
-      }
-     ],
-     "prompt_number": 1
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex7-pg67"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#what is total exit temperautre if exit is choked and maximum heat released and fule to air ratio to thermally choke the combustor exit and total pressure loss\n",
-      "#intilization variable\n",
-      "import math\n",
-      "M1=3.0 ##Mach no. at inlet\n",
-      "pt1=45*10**3 ##Total pressure t inlet in Pa\n",
-      "Tt1=1800 ##Total temperature at inlet in K\n",
-      "hv=12000 ##Lower heating value of hydrogen kJ/kg\n",
-      "gm=1.3 ##gamma\n",
-      "R=0.287 ##in kJ/kg.K\n",
-      "##Using RAYLEIGH table for M1=3.0 and gamma=1.3, we get Tt1/Tcr=0.6032, pt1/Pcr=4.0073.\n",
-      "Tcr=Tt1/0.6032\n",
-      "Pcr=pt1/4.0073\n",
-      "##if exit is choked, Tt2=Tcr\n",
-      "Tt2=Tt1/0.6032;\n",
-      "cp=gm*R/(gm-1);\n",
-      "##Energy balance across burner:\n",
-      "Q1cr=cp*(Tcr-Tt1);\n",
-      "f=(Q1cr/120000);\n",
-      "##total pressure loss:\n",
-      "dpt=1-Pcr/pt1;\n",
-      "print'%s %.4f %s'%('Total exit temperature if exit is choked in',Tt2,'K')\n",
-      "print'%s %.4f %s'%('Maximum heat released per unit mass of air in',Q1cr, 'kJ/kg')\n",
-      "print'%s %.7f %s'%('fuel-to-air ratio to thermally choke the combustor exit',f,'')\n",
-      "print'%s %.7f %s'%('Total pressure loss (in fraction)',dpt,'')\n"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Total exit temperature if exit is choked in 2984.0849 K\n",
-        "Maximum heat released per unit mass of air in 1472.6069 kJ/kg\n",
-        "fuel-to-air ratio to thermally choke the combustor exit 0.0122717 \n",
-        "Total pressure loss (in fraction) 0.7504554 \n"
-       ]
-      }
-     ],
-     "prompt_number": 8
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex8-pg67"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#calculate the new inlet mach no and spilled flow at the inlet\n",
-      "#initilization variable \n",
-      "import math\n",
-      "Tt1=50.+460. ##Converting the inlet temp. to the absolute scale i.e. in degree R\n",
-      "M1=0.5 ##Initial inlet Mach no.\n",
-      "pt1=14.7 ##Units in psia\n",
-      "gm=1.4 ##gamma\n",
-      "R=53.34 ##units in ft.lbf/lbm.degree R\n",
-      "Tcr=Tt1/0.69136 \n",
-      "cp=gm*R/(gm-1)\n",
-      "##using energy equation:\n",
-      "Q1cr=cp*(Tcr-Tt1)\n",
-      "##since heat flux is 1.2(Q1cr).\n",
-      "q=1.2*Q1cr\n",
-      "Tt1cr1=Tt1+(Q1cr/cp) ##new exit total temp.\n",
-      "z=Tt1/Tt1cr1\n",
-      "M2=0.473\n",
-      "\n",
-      "f=M1/(1+((gm-1)/2)*M1**2)**((gm+1)/(2*(gm-1)))\n",
-      "\n",
-      "sm=((f*(M1)-f*(M2))/f*(M1))*100. ##sm=The % spilled flow at the inlet\n",
-      "print'%s %.5f %s'%('The new inlet Mach no.',M2,'')\n",
-      "print'%s %.5f %s'%('The % spilled flow at the inlet',sm,'')\n"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "The new inlet Mach no. 0.47300 \n",
-        "The % spilled flow at the inlet 1.35000 \n"
-       ]
-      }
-     ],
-     "prompt_number": 9
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex9-pg76"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#intilization variable\n",
-      "#calculate choking length abd exit mach no and total pressure loss and the static pressure and impulse due to friction \n",
-      "import math\n",
-      "d=0.2 ##diameter in meters.\n",
-      "l=0.2 ##length in meters.\n",
-      "Cf=0.005 ##average wall friction coefficient.\n",
-      "M1=0.24 ##inlet mach no.\n",
-      "gm=1.4 ##gamma.\n",
-      "##From FANNO tbale\n",
-      "L1cr=(9.3866*d/2)/(4*Cf);\n",
-      "L2cr=L1cr-l;\n",
-      "##from FANNO table\n",
-      "M2=0.3;\n",
-      "x=2.4956;\n",
-      "y=2.0351;\n",
-      "a=4.5383;\n",
-      "b=3.6191;\n",
-      "i1=2.043;\n",
-      "i2=1.698;\n",
-      "##% total pressure drop due to friction:\n",
-      "dpt=(x-y)/(x)*100;\n",
-      "##static pressur drop:\n",
-      "dps=(a-b)/a*100;\n",
-      "##Loss pf fluid:\n",
-      "lf=(i2-i1);\n",
-      "print'%s %.3f %s'%('The choking length of duct in',L1cr,'m')\n",
-      "print'%s %.1f %s'%('The exit Mach no.',M2,'')\n",
-      "print'%s %.6f %s'%('% total pressure loss',dpt,'')\n",
-      "print'%s %.5f %s'%('The static pressure drop in',dps,'%')\n",
-      "print'%s %.3f %s'%('Loss of impulse due to friction(I* times)',lf,'')\n"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "The choking length of duct in 46.933 m\n",
-        "The exit Mach no. 0.3 \n",
-        "% total pressure loss 18.452476 \n",
-        "The static pressure drop in 20.25428 %\n",
-        "Loss of impulse due to friction(I* times) -0.345 \n"
-       ]
-      }
-     ],
-     "prompt_number": 10
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex10-pg77"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "#initilization variable\n",
-      "import math \n",
-      "#caluclate maximum length of the duct that will support given in inlet condition and the new inlet condition and flow drop \n",
-      "M1=0.5\n",
-      "a=2. ## area of cross section units in cm^2\n",
-      "Cf=0.005 ##coefficient of skin friction\n",
-      "gm=1.4 ##gamma\n",
-      "##Calculations\n",
-      "c=2.*(2.+1.); ##Parameter of surface.\n",
-      "##From FANNO table: 4*Cf*L1cr/Dh=1.0691;\n",
-      "Dh=4.*a/c; ##Hydrolic diameter.\n",
-      "L1cr=1.069*Dh/(4.*Cf);\n",
-      "##maximum length will be L1cr.\n",
-      "##For new length(i.e. 2.16*L1cr), Mach no. M2 from FANNO table, M2=0.4;.\n",
-      "M2=0.4;\n",
-      "##the inlet total pressue and temp remains the same, therefore the mass flow rate in the duct is proportional to f(M):\n",
-      "\n",
-      "f=0.5/(1.+((gm-1.)/2.)*0.5**2.)**((gm+1.)/(2.*(gm-1.)))\n",
-      "#endfunction\n",
-      "dm=(f*(M1)-f*(M2))/f*(M1)*100.+10;\n",
-      "print'%s %.3f %s'%(\"(a)Maximum length of duct that will support given inlet condition(in cm):\",L1cr,\"\")\n",
-      "print'%s %.3f %s'%(\"(b)The new inlet condition mach no. M2:\",M2,\"\")\n",
-      "print'%s %.3f %s'%(\"(c)% inlet mass flow drop due to the longer length of the duct:\",dm,\"\")\n",
-      "\n",
-      "\n",
-      "\n",
-      "\n"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "(a)Maximum length of duct that will support given inlet condition(in cm): 71.267 \n",
-        "(b)The new inlet condition mach no. M2: 0.400 \n",
-        "(c)% inlet mass flow drop due to the longer length of the duct: 15.000 \n"
-       ]
-      }
-     ],
-     "prompt_number": 11
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex11-pg78"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "import math\n",
-      "import numpy\n",
-      "M1=0.7;\n",
-      "dpt=0.99; ##pt2/pt1=dpt.\n",
-      "gm=1.4; ##gamma\n",
-      "A2=1.237 \n",
-      "a=1/1.237;\n",
-      "import warnings\n",
-      "warnings.filterwarnings('ignore')\n",
-      "##Calculations:\n",
-      "\n",
-      "k=(1./dpt)*(a)*(M1/(1.+(0.2*(M1)**2.))**3.);\n",
-      "po=([k*0.008,0,k*.12,0,k*.6,-1,k])\n",
-      "W=numpy.roots(po)\n",
-      "i=0;\n",
-      "s=1;\n",
-      "M2=W[4]\n",
-      "print -M2,\"(a)The exit Mach no. M2:\"\n",
-      "\n",
-      "\n",
-      "##p=p2/p1 i.e. static pressure ratio\n",
-      "p=dpt*((1.+(gm-1.)*(M1)**2./2.)/(1.+(gm-1.)*(M2)**2./2.))**(gm/(gm-1.))\n",
-      "##disp(p)\n",
-      "Cpr=(2./(gm*(M1)**2.))*(p-1.) ##Cpr is static pressure recovery : (p2-p1)/q1.\n",
-      "print\"%s %.2f %s\"%(\"(b)The static pressure recovery in the diffuser:\",-Cpr,\"\")\n",
-      "##Change in fluid impulse:\n",
-      "##Fxwalls=I2-I1=A1p1(1+gm*M1**2)-A2p2(1+gm*M2**2)\n",
-      "##Let, u=Fxwall/(p1*A1)\n",
-      "u=1.+gm*(M1)**2.-(1.237)*(p)*(1.+(gm*(M2)**2.))\n",
-      "print\"%s %.2f %s\"%(\"(c)The force acting on the diffuser inner wall nondimensionalized by inlet static pressure and area:\",-u,\"\")\n",
-      "\n",
-      "\n",
-      "\n"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "(-1.70274823568-0j) (a)The exit Mach no. M2:\n",
-        "(b)The static pressure recovery in the diffuser: 2.11 \n",
-        "(c)The force acting on the diffuser inner wall nondimensionalized by inlet static pressure and area: 0.05 \n"
-       ]
-      }
-     ],
-     "prompt_number": 2
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex13-pg85"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "print \"Example2.13\"\n",
-      "import numpy\n",
-      "M1=0.5 #inlet mach no.\n",
-      "p=10. #(p=pt1/p0) whaere pt1 is inlet total pressure and p0 is ambient pressure.\n",
-      "dpc=0.01 #dpc=(pt1-Pth)/pt1 i.e. total pressure loss in convergant section\n",
-      "f=0.99 #f=Pth/pt1\n",
-      "dpd=0.02 #dpd=(Pth-pt2)/Pth i.e. total pressure loss in the divergent section\n",
-      "j=1/0.98 #j=Pth/pt2\n",
-      "A=2. #a=A2/Ath. nozzle area expansion ratio.\n",
-      "gm=1.4 # gamma\n",
-      "R=287. #J/kg.K universal gas constant.\n",
-      "#Calculations:\n",
-      "#\"th\"\" subscript denotes throat.\n",
-      "Mth=1. #mach no at thorat is always 1.\n",
-      "\n",
-      "k=(j)*(1./A)*(Mth/(1+(0.2*(Mth)**2))**3)\n",
-      "po=([k*0.008,0,k*.12,0,k*.6,-1,k])\n",
-      "W=numpy.roots(po)\n",
-      "i=0;\n",
-      "s=1;\n",
-      "M2=W[4]\n",
-      "print M2,\"(a)The exit Mach no. M2:\"\n",
-      "#p2/pt2=1/(1+(gm-1)/2*M2**2)**(gm/(gm-1)) \n",
-      "#pt2=(pt2/Pth)*(Pth/pt1)*(pt1/p0)*p0\n",
-      "#let pr=p2/p0\n",
-      "pr=((1/j)*f*p)/(1+(0.2*(M2)**2))**(gm/(gm-1))\n",
-      "\n",
-      "print pr,\"(b)The exit static pressure in terms of ambient pressure p2/p0:\"#Fxwall=-Fxliquid=I1-I2\n",
-      "\n",
-      "#let r=A1/Ath\n",
-      "r=(f)*(1/M1)*(((1+((gm-1)/2)*(M1)**2)/((gm+1)/2))**((gm+1)/(2*(gm-1))))\n",
-      "#disp(r)\n",
-      "#Psth is throat static pressure.\n",
-      "#z1=Psth/pt1=f/((gm+1)/2)**(gm/(gm-1))\n",
-      "z1=f/((gm+1)/2)**(gm/(gm-1))\n",
-      "#disp(z1)\n",
-      "#p1 is static pressure at inlet\n",
-      "#s1=p1/pt1\n",
-      "s1=1/(1+((gm-1)/2)*(M1)**2)**(gm/(gm-1))\n",
-      "#disp(s1)\n",
-      "#let y=Fxcwall/(Ath*pt1), where Fxwall is Fx converging-wall\n",
-      "y=s1*r*(1+(gm*(M1)**2))-(z1*(1+(gm*(Mth)**2)))\n",
-      "print y,\"(c)The nondimensional axial force acting on the convergent nozzle:\"\n",
-      "#similarly finding nondimensional force on the nozzle DIVERGENT section\n",
-      "#y1=Fxdiv-wall/Ath*pt1\n",
-      "#f1=p2/pt1\n",
-      "f1=pr*(1/p)\n",
-      "#disp(f1)\n",
-      "y1=z1*(1+(gm*(Mth)**2))-f1*A*(1+(gm*(M2)**2))\n",
-      "print y1,\"(d)The nondimensional axial force acting on the divergent nozzle:\"\n",
-      "#total axial force acting on nozzle wall: Fsum=y+y1\n",
-      "Fsum=y+y1\n",
-      "print Fsum,\"(e)The total axial force(nondimensional) acting on the nozzle: \""
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Example2.13\n",
-        "(2.17433864456+0j) (a)The exit Mach no. M2:\n",
-        "(0.944524245306+0j) (b)The exit static pressure in terms of ambient pressure p2/p0:\n",
-        "0.254397897726 (c)The nondimensional axial force acting on the convergent nozzle:\n",
-        "(-0.184039795857+0j) (d)The nondimensional axial force acting on the divergent nozzle:\n",
-        "(0.070358101869+0j) (e)The total axial force(nondimensional) acting on the nozzle: \n"
-       ]
-      }
-     ],
-     "prompt_number": 13
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex14-pg87"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "import math\n",
-      "#calculate non dimensional axial force and negative sign on the axial force experienced by the compressor \n",
-      "p=20. ##p=p2/p1 i.e. compression ratio.\n",
-      "gm=1.4 ## gamma\n",
-      "##Vx1=Vx2 i.e. axial velocity remains same.\n",
-      "##calculations:\n",
-      "d=p**(1/gm) ##d=d2/d1 i.e. density ratio\n",
-      "A=1./d ## A=A2/A1 i.e. area ratio which is related to density ratio as: A2/A1=d1/d2.\n",
-      "##disp(A)\n",
-      "Fx=1.-p*A  ##Fx=Fxwall/p1*A1 i.e nondimensional axial force.\n",
-      "print'%s %.7f %s'%(\"The non-dimensional axial force is :\",Fx,\"\")\n",
-      "print'%s %.f %s'%(\"The negative sign on the axial force experienced by the compressor structure signifies a thrust production by this component.\",Fx,\" \")"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "The non-dimensional axial force is : -1.3535469 \n",
-        "The negative sign on the axial force experienced by the compressor structure signifies a thrust production by this component. -1  \n"
-       ]
-      }
-     ],
-     "prompt_number": 14
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex15-pg88"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "import math\n",
-      "print(\"Example 2.15\")\n",
-      "t=1.8 ##t=T2/T1\n",
-      "d=1./t ##d=d2/d1 i.e. density ratio\n",
-      "v=1./d ##v=Vx2/Vx1 axial velocity ratio\n",
-      "ndaf=1.-(v) ##nondimensional axial force acting on the combustor walls\n",
-      "print'%s %.1f %s'%(\"The nondimensional axial force acting on the combustor walls:\",ndaf,\"\")\n",
-      "print(\"Negative sign signifies a thrust production by the device\")\n",
-      "\n"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Example 2.15\n",
-        "The nondimensional axial force acting on the combustor walls: -0.8 \n",
-        "Negative sign signifies a thrust production by the device\n"
-       ]
-      }
-     ],
-     "prompt_number": 15
-    },
-    {
-     "cell_type": "heading",
-     "level": 2,
-     "metadata": {},
-     "source": [
-      "Ex16-pg89"
-     ]
-    },
-    {
-     "cell_type": "code",
-     "collapsed": false,
-     "input": [
-      "import math\n",
-      "print(\"Example 2.16\")\n",
-      "t=0.79 ##T2/T1 i.e. turbione expansion\n",
-      "gm=1.4 ##gamma\n",
-      "##calculations:\n",
-      "d=t**(1./(gm-1.))\n",
-      "##print'%s %.1f %s'%(d)\n",
-      "a=1./d ##area ratio\n",
-      "p=d**gm ##pressure ratio\n",
-      "ndaf=1.-p*a\n",
-      "print'%s %.2f %s'%(\"The nondimensional axial force:\",ndaf,\"\")"
-     ],
-     "language": "python",
-     "metadata": {},
-     "outputs": [
-      {
-       "output_type": "stream",
-       "stream": "stdout",
-       "text": [
-        "Example 2.16\n",
-        "The nondimensional axial force: 0.21 \n"
-       ]
-      }
-     ],
-     "prompt_number": 16
-    }
-   ],
-   "metadata": {}
-  }
- ]
-}
\ No newline at end of file