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| author | Trupti Kini | 2017-03-07 09:55:18 +0600 |
|---|---|---|
| committer | Trupti Kini | 2017-03-07 09:55:18 +0600 |
| commit | 7b201e8b044eef00f72b3c7638812b0462a93375 (patch) | |
| tree | 840011918e107c8bfc8f33e23af35c5e163fafe7 /sample_notebooks | |
| parent | c984dee5c1ff671922461e6c9178e96b44cd7204 (diff) | |
| download | Python-Textbook-Companions-7b201e8b044eef00f72b3c7638812b0462a93375.tar.gz Python-Textbook-Companions-7b201e8b044eef00f72b3c7638812b0462a93375.tar.bz2 Python-Textbook-Companions-7b201e8b044eef00f72b3c7638812b0462a93375.zip | |
Added(A)/Deleted(D) following books
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_0cfmKH1.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_0vE2Agb.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_1pO6mlQ.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_2DVKX4L.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_2tbXSIz.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_4DFRgPd.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_5BlMA37.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_6BpYQtS.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_7oQcI9D.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_7osIJcS.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_BljETDD.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_BrFEmk0.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_Cde70Gn.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_DGhuTd1.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_DnIfPiv.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_Ekp0nuF.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_HETTD7r.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_KlAE574.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_PjpHu09.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_PxZ5uHj.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_Q4fBBjq.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_T4mzLHI.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_UAITY0U.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_VEDuU8Y.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_WUGl4w9.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_a1WJQcD.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_bH5qWgx.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_e3fJkOS.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_eA2iMeu.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_eYNgYIE.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_gBECinX.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_k1gQDvp.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_kA9oA4k.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_kMX1E4Y.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_ludD60G.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_nK3AyHX.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_nbFgz6I.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_qJkWZ89.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_qaQF6hK.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_tuNOeJT.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_vEF8v8F.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_w1kpJlA.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_wmNEbtc.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_x8Hd3Fi.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A._K._Theraja,_B.L_Thereja/c_zAHS5nJ.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_2xS3kzU.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_38fwENU.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_5kVbclY.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_7O92CYB.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_7qFSSzO.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_87EQl05.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_8HPcuEd.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_ASNXGJK.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_BQB3vIT.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_BdKInur.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_CK1r2By.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_EIfrtvz.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_EnoiEf8.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_GocmY97.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_Gw8rqEI.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_HDB18kP.ipynb
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A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_PD3CwbT.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_PVVeE6Y.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_PdPqoEJ.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_QritHDf.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_SUaeUO3.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_TkYEtJb.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_UDdHMGf.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_VZgSOpH.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_Yj265eH.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_ZDKRJ4L.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_ZyyCtEx.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_dGjHrPW.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_egC1oo4.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_enqQgpr.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_gD58ZqH.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_gETWb31.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_gSjl2uf.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_hnPoOrk.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_hoBkBgf.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_i133Mfc.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_lFaQS0L.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_lsoSAFi.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_n2YSl8Q.ipynb
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A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_r9cPZxQ.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_tIs0JkF.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_uJFb1kJ.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_uwh7oAV.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_vwGXJQF.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_wA2NdKL.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_wXUDs09.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_x0i8ax0.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_xD8c7xw.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_xKNxc2D.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_ye04nNO.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chap_zy8Cvqw.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter25.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter26.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter27.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter28.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter29.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter30.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter31.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter32.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter33.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter34.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter35.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter36.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter37.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter38.ipynb
A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter39.ipynb
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A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter1.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter10.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter11.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter12.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter2.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter3.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter4.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter5.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter6.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter7.ipynb
A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/Chapter8.ipynb
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A BSc_1st_Year_Physics_by_P._Balabhaskar,_N._Srinivasa_Rao,_B._Sanjeeva_Rao/screenshots/33.png
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter1.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter10.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter11.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter12.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter13.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter14.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter15.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter2.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter3.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter4.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter5.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter6.ipynb
A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter7.ipynb
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A BSc_3rd_Year_Physics(Paper-4)_by_Sanjeeva_Rao,_Bhikshmaiah,_Ramakrishna_Reddy,_Ananta_Ramaiah/Chapter9.ipynb
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A Electric_Drives_Concepts_And_Applications_by_Vedam_Subrahmanyam/Chapter01.ipynb
A Electric_Drives_Concepts_And_Applications_by_Vedam_Subrahmanyam/Chapter03.ipynb
A Electric_Drives_Concepts_And_Applications_by_Vedam_Subrahmanyam/Chapter04.ipynb
A Electric_Drives_Concepts_And_Applications_by_Vedam_Subrahmanyam/Chapter05.ipynb
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A Electronic_Communication_Systems_by_Roy_Blake/Chapter1.ipynb
A Electronic_Communication_Systems_by_Roy_Blake/Chapter12.ipynb
A Electronic_Communication_Systems_by_Roy_Blake/Chapter13.ipynb
A Electronic_Communication_Systems_by_Roy_Blake/Chapter14.ipynb
A Electronic_Communication_Systems_by_Roy_Blake/Chapter15.ipynb
A Electronic_Communication_Systems_by_Roy_Blake/Chapter16.ipynb
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A Electronic_Communication_Systems_by_Roy_Blake/Chapter18.ipynb
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A Electronic_Communication_Systems_by_Roy_Blake/Chapter2.ipynb
A Electronic_Communication_Systems_by_Roy_Blake/Chapter20.ipynb
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A Electronic_Communication_Systems_by_Roy_Blake/Chapter3.ipynb
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A Electronic_Communication_Systems_by_Roy_Blake/Chapter7.ipynb
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A Electronic_Communication_Systems_by_Roy_Blake/Chapter9.ipynb
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A Engineering_Mechanics:_Statics_&_Engineering_Mechanics:_Dynamics_by_Meriam,_J._L.,_&_Kraige,_L._G./CHAPTER1.ipynb
A Engineering_Mechanics:_Statics_&_Engineering_Mechanics:_Dynamics_by_Meriam,_J._L.,_&_Kraige,_L._G./CHAPTER2.ipynb
A Engineering_Mechanics:_Statics_&_Engineering_Mechanics:_Dynamics_by_Meriam,_J._L.,_&_Kraige,_L._G./CHAPTER3.ipynb
A Engineering_Mechanics:_Statics_&_Engineering_Mechanics:_Dynamics_by_Meriam,_J._L.,_&_Kraige,_L._G./CHAPTER4.ipynb
A Engineering_Mechanics:_Statics_&_Engineering_Mechanics:_Dynamics_by_Meriam,_J._L.,_&_Kraige,_L._G./CHAPTER5.ipynb
A Engineering_Mechanics:_Statics_&_Engineering_Mechanics:_Dynamics_by_Meriam,_J._L.,_&_Kraige,_L._G./CHAPTER6.ipynb
A Engineering_Mechanics:_Statics_&_Engineering_Mechanics:_Dynamics_by_Meriam,_J._L.,_&_Kraige,_L._G./CHAPTER7.ipynb
A Engineering_Mechanics:_Statics_&_Engineering_Mechanics:_Dynamics_by_Meriam,_J._L.,_&_Kraige,_L._G./CHAPTER8.ipynb
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A Engineering_Mechanics_(Statics,_Dynamics),_by_Hibler_and_Gupta/Chapter_10_Moments_of_Inertia.ipynb
A Engineering_Mechanics_(Statics,_Dynamics),_by_Hibler_and_Gupta/Chapter_11__Virtual_Work.ipynb
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A Engineering_Mechanics_(Statics,_Dynamics),_by_Hibler_and_Gupta/Chapter_1_General_Principles.ipynb
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A Engineering_Mechanics_(Statics,_Dynamics),_by_Hibler_and_Gupta/Chapter_3_Equilibrium_o_hYESk4B.ipynb
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A Engineering_Mechanics_by_R.K_Bansal/chapter_1.ipynb
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A Engineering_Mechanics_by_R.K_Bansal/chapter_5.ipynb
A Engineering_Mechanics_by_R.K_Bansal/chapter_6.ipynb
A Engineering_Mechanics_by_R.K_Bansal/chapter_7.ipynb
A Engineering_Mechanics_by_R.K_Bansal/chapter_8.ipynb
A Engineering_Mechanics_by_R.K_Bansal/chapter_9.ipynb
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A Introduction_to_Heat_Transfer_by_S._K._Som/Chapter10_ljUjU8j.ipynb
A Introduction_to_Heat_Transfer_by_S._K._Som/Chapter11_5r7Matr.ipynb
A Introduction_to_Heat_Transfer_by_S._K._Som/Chapter12.ipynb
A Introduction_to_Heat_Transfer_by_S._K._Som/Chapter1_QhYeq33.ipynb
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A Introduction_to_Heat_Transfer_by_S._K._Som/Chapter5_2AAnLS8.ipynb
A Introduction_to_Heat_Transfer_by_S._K._Som/Chapter6_lGPDUWp.ipynb
A Introduction_to_Heat_Transfer_by_S._K._Som/Chapter7_Ie2FcUI.ipynb
A Introduction_to_Heat_Transfer_by_S._K._Som/Chapter8_vyeGLD8.ipynb
A Introduction_to_Heat_Transfer_by_S._K._Som/Chapter9_4YOTRPU.ipynb
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A Strength_Of_Materials_by_S_S_Bhavikatti/chapter_10_pO7WExy.ipynb
A Strength_Of_Materials_by_S_S_Bhavikatti/chapter_2_FxNgKwZ.ipynb
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A The_Elements_of_Physical_Chemistry_by_S._Glasstone/Chapter1.ipynb
A The_Elements_of_Physical_Chemistry_by_S._Glasstone/Chapter10.ipynb
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A The_Elements_of_Physical_Chemistry_by_S._Glasstone/Chapter19.ipynb
A The_Elements_of_Physical_Chemistry_by_S._Glasstone/Chapter4.ipynb
A The_Elements_of_Physical_Chemistry_by_S._Glasstone/Chapter5.ipynb
A The_Elements_of_Physical_Chemistry_by_S._Glasstone/Chapter6.ipynb
A The_Elements_of_Physical_Chemistry_by_S._Glasstone/Chapter7.ipynb
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A The_Elements_of_Physical_Chemistry_by_S._Glasstone/Chapter9.ipynb
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A "sample_notebooks/Sushovan Jena/Chapter1.ipynb"
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diff --git a/sample_notebooks/Sushovan Jena/Chapter1.ipynb b/sample_notebooks/Sushovan Jena/Chapter1.ipynb new file mode 100644 index 00000000..1d13f145 --- /dev/null +++ b/sample_notebooks/Sushovan Jena/Chapter1.ipynb @@ -0,0 +1,756 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Chapter 1: Review of Basic Circuits" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Example 1 Page No:5" + ] + }, + { + "cell_type": "code", + "execution_count": 18, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Applying KCL at junction(N),we get I=1+2=3 A\n" + ] + } + ], + "source": [ + "# Given Data\n", + "#Current through Resistor R1 is 1A\n", + "#Current through Resistor R2 is 2A\n", + "#Display results\n", + "print\"Applying KCL at junction(N),we get I=1+2=3 A\" # KCL stands for Kirchoff's Current Law which states\n", + " # that sum of all currents at a junction equals to zero\n", + " # N is the name of the junction" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Example 2 Page No:7" + ] + }, + { + "cell_type": "code", + "execution_count": 19, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "I=0.200000 A\n" + ] + } + ], + "source": [ + "#Given Data\n", + "E1=4.;#EMF in volts\n", + "E2=2.;#EMF in volts\n", + "r1=2.;#Resistance in ohm\n", + "r2=3.;#Resistance in ohm\n", + "R=5.;#Resistance in ohm\n", + "#Calculations\n", + "#Applying KVL to the circuit,we get\n", + "I=(E1-E2)/(r1+r2+R);#Current in Amperes\n", + "#Display Results\n", + "print \"I=%f A\"%I;" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Example 3 Page No:9" + ] + }, + { + "cell_type": "code", + "execution_count": 20, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The current by the battery I=0.312500 Amperes\n" + ] + } + ], + "source": [ + "#Given Data\n", + "E=10.0;#EMF in volts\n", + "R1=20.0;#Resistance in ohm\n", + "R2=20.0;#Resistance in ohm\n", + "R3=30.0;#Resistance in ohm\n", + "#Calculations\n", + "Req=R1+(R2*R3/(R2+R3));# Equivalent resistance of the circuit\n", + "I=E/Req;#Current through the battery in Amperes\n", + "print \"The current by the battery I=%f Amperes\"%I;\n" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Example 4 Page No:12" + ] + }, + { + "cell_type": "code", + "execution_count": 21, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Current through R=5ohm is 0.277778 Amperes\n" + ] + } + ], + "source": [ + "#Naming emfs on both sides to be E1,E2 respectively\n", + "#and resistances as R1,R2,R3\n", + "#Given Data\n", + "E1=3.0;# volts\n", + "E2=1.0;# volts\n", + "R1=4.0;# ohms\n", + "R2=Rab=RL=5.0;# ohms\n", + "R3=2.0;# ohms\n", + "#Calculations\n", + "#We apply Thevenins Theorem to solve\n", + "#We have to find Vth and Rth\n", + "#First Apllying KVL in the outer loop,we get\n", + "I=2.0/6;# Amp\n", + "Va=3-I*4# volts\n", + "#Since 'B' is attached to negative potential\n", + "Vth=Vab=Va-0;# volts\n", + "#Then we find Rth\n", + "Rth=Rab=2*4/(2+4);# ohm\n", + "IL=Vth/(Rth+RL);# Load Current in Amp\n", + "print \"Current through R=5ohm is %f Amperes\"%IL\n", + "\n", + "\n" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Example 5 Page No:14" + ] + }, + { + "cell_type": "code", + "execution_count": 22, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "The power delivered to 'R' is maximum when R=r/2\n", + "Maximum Power transferred is Pmax=E**2/(2*r)\n" + ] + } + ], + "source": [ + "from sympy import Symbol\n", + "#Given Data\n", + "#Two batteries of emf E with internal resistances 'r'\n", + "#Calculations\n", + "#Case(a)\n", + "#Open circuiting the branch containing 'R'\n", + "#and short circuiting 'E'\n", + "E=Symbol('E');\n", + "r=Symbol('r');\n", + "Rth=r*r/(r+r);# Thevenin's Eq. Resistance in Ohm\n", + "print \"The power delivered to 'R' is maximum when R=%s\"%Rth; #According to the maximum power transform theorem\n", + "#case(b)\n", + "#Applying Parallel Theorem\n", + "Vth=E; # Vth is Thevenin's Voltage\n", + "#Pmax=(IL**2)*R\n", + "Pmax=(Vth/(2*Rth))**2*Rth;# R=Rth, Pmax is Maximum power tranferred\n", + "print \"Maximum Power transferred is Pmax=%s\"%Pmax;\n" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "collapsed": false + }, + "source": [ + "## Solved Questions" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Q.1 Page No:33" + ] + }, + { + "cell_type": "code", + "execution_count": 23, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Input Power=444.44 KW\n", + "Power Factor=-0.998612\n" + ] + } + ], + "source": [ + "import math\n", + "from numpy import degrees,arctan,cos\n", + "#Given\n", + "#For a 3ph motor\n", + "VL=2000; #in volts\n", + "f=50;# Hz\n", + "nFL=0.9;#Full load Efficiency\n", + "W1=300;#Wattmeter-1 Reading in KW\n", + "W2=100;#Wattmeter-2 Reading in KW\n", + "#Calculations\n", + "#(i)\n", + "Po=W1+W2;#Outout Power\n", + "Pin=Po/nFL;#Input Power\n", + "#(ii)\n", + "ph=degrees(arctan(((W2-W1)*math.sqrt(3))/(W1+W2)));\n", + "pf=cos(ph);\n", + "#Display\n", + "print\"Input Power=%.2f KW\"%Pin;\n", + "print\"Power Factor=%f\"%pf;" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Q.2 Page No:34" + ] + }, + { + "cell_type": "code", + "execution_count": 24, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Line Current=23.09Amperes\n", + "Power factor=0.800000\n", + "Power=12.800000 KW\n", + "Total Volt Ampere=16.00 KVA\n" + ] + } + ], + "source": [ + "import math\n", + "from numpy import arctan2,degrees,cos\n", + "#Given\n", + "#A balanced star connected load\n", + "Zph=8+1j*6;#Ohm\n", + "VL=400;#Line voltage inVolts\n", + "#Calculations\n", + "#(i)\n", + "Vph=VL/math.sqrt(3);#Phase Voltage\n", + "Iph=Vph/abs(Zph);#Phase Current\n", + "IL=Iph;#Line current\n", + "#(ii)\n", + "pf=cos(arctan2(Zph.imag,Zph.real));#Power factor\n", + "#(iii)\n", + "P=math.sqrt(3)*VL*IL*pf*10**-3;#Power\n", + "#(iv)\n", + "VA=math.sqrt(3)*VL*IL*10**(-3);#Volt Ampere\n", + "#Display\n", + "print\"Line Current=%.2fAmperes\"%IL;\n", + "print\"Power factor=%f\"%pf;\n", + "print\"Power=%f KW\"%P;\n", + "print\"Total Volt Ampere=%.2f KVA\"%VA;" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "collapsed": true + }, + "source": [ + "## Q.3 Page No:35" + ] + }, + { + "cell_type": "code", + "execution_count": 25, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Line current=3.264397 amp\n", + "Power Absorbed=1.600000 KW\n", + "Total KVA=2.261641 KVA\n", + "Power Factor=0.707451\n" + ] + } + ], + "source": [ + "import math\n", + "from numpy import arctan2,cos,degrees\n", + "#Given\n", + "#Each phase of a star connected load has\n", + "R=100;# Resistance in Ohm\n", + "C=31.8*10**(-6);# Capacitance in Farad\n", + "#Connected to 3-ph\n", + "VL=400;#Volts\n", + "f=50;#Hz\n", + "#Calculations\n", + "Xc=1/(2*math.pi*f*C);#Capacitive Reactance in Ohm\n", + "num=R*-1j*Xc;#Ohm\n", + "den=(R-1j*Xc);\n", + "Z=(num*den.conjugate())/(den*den.conjugate()); #Impedance\n", + "#(i)\n", + "Vp=VL/math.sqrt(3);#Phase voltage\n", + "IL=Vp/abs(Z);#Line current\n", + "#(ii)\n", + "ph=arctan2(Z.imag,Z.real); #Phase angle\n", + "TKVA=math.sqrt(3)*VL*IL*10**(-3);# Total Power\n", + "P=TKVA*cos(ph);\n", + "pf=cos(ph);#Power factor\n", + "#Display\n", + "print\"Line current=%f amp\"%IL;\n", + "print\"Power Absorbed=%f KW\"%P;\n", + "print\"Total KVA=%f KVA\"%TKVA;\n", + "print\"Power Factor=%f\"%pf;\n", + "#Answer differs slightly from TEXTBOOK" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "collapsed": true + }, + "source": [ + "## Q.4. Page No:36" + ] + }, + { + "cell_type": "code", + "execution_count": 26, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Line voltage=461.88 volt\n", + "Phase voltage=266.67 volt\n", + "KVAR input=16.703293 KVAR\n" + ] + } + ], + "source": [ + "import math\n", + "from numpy import arccos,sin\n", + "#Given\n", + "#The load connectted to a 3-ph supply comprises\n", + "Pkva=20;#in KVA\n", + "Pkw=11.0;#in KW\n", + "IL=25;#Line Current in Amp\n", + "#Calculations\n", + "ph=arccos(Pkw/Pkva);\n", + "Pkvar=Pkva*sin(ph);#in KVAR\n", + "VL=20*10**3/(math.sqrt(3)*IL);\n", + "Vph=VL/math.sqrt(3);\n", + "#Display\n", + "print\"Line voltage=%.2f volt\"%VL;\n", + "print\"Phase voltage=%.2f volt\"%Vph;\n", + "print\"KVAR input=%f KVAR\"%Pkvar;" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Q.5. Page No:37" + ] + }, + { + "cell_type": "code", + "execution_count": 27, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Resistance across Delta Circuit=60.000000 Ohm\n", + "Current flowing through them=6.67 Amp\n" + ] + } + ], + "source": [ + "import math\n", + "#Given\n", + "#A star circuit and a delta circuit\n", + "#In star circuit\n", + "VL1=400.0;#volts\n", + "R1=20.0;#ohm\n", + "#In Delta Circuit\n", + "VL=400;#volt\n", + "#Calculations\n", + "Vph1=VL1/math.sqrt(3); #Phase Voltage-1\n", + "Iph1=Vph1/R1; #Phase current-1\n", + "IL1=Iph1; #Line current-1\n", + "#In Delta circuit\n", + "IL2=IL1; # Line current-2\n", + "VL2=VL1; #line voltage-2\n", + "Vph2=VL2; #Phase voltage-2\n", + "Iph2=IL2/math.sqrt(3);#Phase current-2\n", + "R2=Vph2/Iph2;#Resistance in Ohm\n", + "#Display\n", + "print\"Resistance across Delta Circuit=%f Ohm\"%R2;\n", + "print\"Current flowing through them=%.2f Amp\"%Iph2;\n", + "\n" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "collapsed": true + }, + "source": [ + "## Q.6. Page No:37" + ] + }, + { + "cell_type": "code", + "execution_count": 28, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Phase current=27.712813 A\n", + "Power consumed=6.400000 KW\n", + "Phasor sum of all line currents= 0\n" + ] + } + ], + "source": [ + "import math\n", + "#Given\n", + "#A 3-ph supply connected to balanced delta load\n", + "VL=Vph=400; #in volts\n", + "Zph=15+1j*20; #Ohm\n", + "#Calculations\n", + "#(i)\n", + "Iph=Vph/abs(Zph); #Phase current\n", + "#(ii)\n", + "P=Iph**2*abs(Zph)*10**-3; #Power\n", + "#(iii)\n", + "IL=math.sqrt(3)*Iph; #Line current\n", + "#Display\n", + "print\"Phase current=%f A\"%IL;\n", + "print\"Power consumed=%f KW\"%P;\n", + "print\"Phasor sum of all line currents=\",0;\n", + "#SOLUTION IN THE TEXTBOOK IS WRONG" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "collapsed": true + }, + "source": [ + "## Q.7 Page No:38" + ] + }, + { + "cell_type": "code", + "execution_count": 29, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Line Voltage=346.41 V\n", + "On reversing the phase connections,Line voltage remains unaffected\n" + ] + } + ], + "source": [ + "#Given\n", + "#In a 3-ph Star connected System\n", + "Vp=200;#Phase voltage in volts\n", + "#Calculations\n", + "#(a)\n", + "VL=math.sqrt(3)*Vp; #Line Voltage in volts\n", + "#(b)\n", + "#Line voltage remains unaffected\n", + "#Display\n", + "print\"Line Voltage=%.2f V\"%VL;\n", + "print\"On reversing the phase connections,Line voltage remains unaffected\";" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Q.8 Page No:39" + ] + }, + { + "cell_type": "code", + "execution_count": 30, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Total Power drawn=600.000000 Watts\n" + ] + } + ], + "source": [ + "import math\n", + "from numpy import cos\n", + "import cmath\n", + "#Given\n", + "#A 3-ph supply connected to 3-ph load\n", + "Vp=200; #Phase Voltage in volts\n", + "Zp=cmath.rect(100,60*math.pi/180); #Phase Impedance\n", + "#Calculations\n", + "Ip=Vp/abs(Zp); #Phase current in Amp\n", + "P=Vp*Ip*cos(cmath.phase(Zp)); #Power in Watts\n", + "P3ph=3*P;#3-ph Power\n", + "#Display\n", + "print\"Total Power drawn=%f Watts\"%P3ph;" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Q.9 Page No:39" + ] + }, + { + "cell_type": "code", + "execution_count": 31, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "W1=-4.843135 KW\n", + "W2=34.843135 KW\n" + ] + } + ], + "source": [ + "import math\n", + "from numpy import arccos,cos\n", + "#Given\n", + "#A 3-ph motor\n", + "VL=500.0; #Line voltage in watts\n", + "pf=0.4; #Power factor\n", + "P=30*10**3; #Total power in KW\n", + "#Calculations\n", + "ph=arccos(pf);\n", + "IL=P/(math.sqrt(3)*VL*pf);\n", + "W1=VL*IL*cos((30*math.pi/180)+ph)*10**(-3); #Wattmeter-1 in KW\n", + "W2=VL*IL*cos((30*math.pi/180)-ph)*10**(-3); #Wattmeter-2 in KW\n", + "#Display\n", + "print\"W1=%f KW\"%W1;\n", + "print\"W2=%f KW\"%W2;\n" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Q.10 Page No:39" + ] + }, + { + "cell_type": "code", + "execution_count": 32, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Power=6.000000 KW\n", + "Power factor=0.654654\n" + ] + } + ], + "source": [ + "import math\n", + "from numpy import arctan\n", + "#Given\n", + "#In a particular measuremet\n", + "W1=5000; #Wattmeter-1 reading\n", + "W2=1000;#Wattmeter-2 reading\n", + "#Calculations\n", + "P=(W1+W2)*10**-3; #Power\n", + "pf=cos(arctan(math.sqrt(3)*(W2-W1)/(W1+W2))); #Power Factor\n", + "#display\n", + "print\"Power=%f KW\"%P;\n", + "print\"Power factor=%f\"%pf;\n" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Q.11 Page No:40" + ] + }, + { + "cell_type": "code", + "execution_count": 33, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "W1=6.380724 watts\n", + "W2=50.037023 watts\n" + ] + } + ], + "source": [ + "import math\n", + "from numpy import arctan,arccos,cos\n", + "#Given\n", + "# A 3-ph motor has\n", + "VL=400.0; #Line voltage in volts\n", + "pf=0.75; #Power factor\n", + "P=26*10**3; #Power\n", + "#Calculations\n", + "ph=math.degrees(arccos(pf)); #Phase angle\n", + "IL=P/(math.sqrt(3)*VL*pf); #Line current\n", + "W1=VL*IL*cos(math.radians(30+ph))*10**(-3); #Wattmeter Reading-1\n", + "W2=VL*IL*cos(math.radians(30-ph))*10**(-3);#Wattmeter Reading-2\n", + "#Display\n", + "print\"W1=%f watts\"%W1;\n", + "print\"W2=%f watts\"%IL;\n", + "#Answers differing from Textbook" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Q.12 Page No:40" + ] + }, + { + "cell_type": "code", + "execution_count": 34, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Power Factor=-0.804634\n" + ] + } + ], + "source": [ + "#In 3-ph supply\n", + "#Given\n", + "W1=1200; #Wattmeter Reading -1\n", + "W2=300; #Wattmeter Reading-2\n", + "#Calculations\n", + "pf=arctan(math.sqrt(3)*(W2-W1)/(W1+W2)); #Power factor\n", + "#Display\n", + "print\"Power Factor=%f\"%pf;\n" + ] + } + ], + "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": "2.7.11" + } + }, + "nbformat": 4, + "nbformat_minor": 0 +} |