17.31 GB | 00:23:28 | mp4 | 1280X720 | 16:9
Genre:eLearning |Language:English
Files Included :
001 Introduction to Electromagnetic Theory (342.9 MB)
002 What is fielld and explaining of all the fields including electromagnatic field (327.33 MB)
003 Position Vector (58.93 MB)
004 Distance vector (74 MB)
005 Types of vectors and Unit Vector clear explanation (342.9 MB)
006 Formulas used in Electromagnetics---Vector Algebra (67.82 MB)
007 Formulas used in Electromagnetics---Vector Algebra Contd , (89.69 MB)
008 Formulas used in Electromagnetics---Vector Algebra Contd , (71.06 MB)
009 Formulas used in Electromagnetics---Vector Algebra Contd , (87.83 MB)
010 Formulas used in Electromagnetics---Vector Algebra (129.01 MB)
011 Formulas used in Electromagnetics---Vector Algebra Contd , (66.76 MB)
012 Review of Coordinate systems-Rectangular coordinate system (309.4 MB)
013 Cylindrical coordinate system (160.18 MB)
014 Spherical Coordinate system (192.26 MB)
015 Point Transformation Cylindrical to Rectangular vice-versa (98.05 MB)
016 Rectangular to Cylindrical point transformation (218.84 MB)
017 Revision of all Point transformation formulas (82.96 MB)
018 Rectangular to Cylindrical Vector transformation (190.72 MB)
019 Cylindrical to Rectangular to Cylindrical Vector transformation contd , (90.18 MB)
020 Rectangular to Spherical Vector transformation contd , (228.38 MB)
021 What is del operator del with temperature (145.85 MB)
022 Divergence or Dot product (168.14 MB)
023 Divergence Theorem (229.47 MB)
024 Mathematical expression of Curl (43.93 MB)
025 Curl (128.75 MB)
027 physical characteristics of a Divergence (386.18 MB)
028 physical characteristics of a Curl (210.66 MB)
029 Curl proof (362.31 MB)
030 Stokes Theorem (156.69 MB)
001 Coulombs Law (245.53 MB)
002 Coulombs law contd , (84.92 MB)
003 Coulombs law contd , (245.74 MB)
004 Coulombs law applied due to system of charges (291.6 MB)
005 Electric Field and Electric field intensity (83.99 MB)
006 Electric field due to system of charges (177.66 MB)
007 Electric field lines and its properties (70.89 MB)
008 Line integral (204.81 MB)
009 Surface integral and Volume integral (223.56 MB)
010 Continuous charge distributions (204.37 MB)
011 Electric field intensity due to various charge distributions (216.22 MB)
012 Electric flux lines (87.25 MB)
013 Electric flux density (24.41 MB)
014 Electric flux density contd , (74.39 MB)
015 Electric flux density due to various charge distributions (157.43 MB)
016 Gauss law (229.75 MB)
017 Gauss theorem proof (131.31 MB)
018 Continuity variation for time varying fields (64.81 MB)
019 Relaxation time (105.03 MB)
020 Electric potential (126.89 MB)
021 Electric potential due to different charges (102.98 MB)
022 Maxwells equations (135.18 MB)
023 Relationbetween E and H (172.93 MB)
024 Energy density and energy stored in a electrostatic field (220.57 MB)
025 Energy density and energy stored in a electrostatic field contd , (157.01 MB)
026 Poissons equation (45.47 MB)
027 laplace equation (174.9 MB)
028 Uniqueness theorem (196.74 MB)
001 Introduction to magnetostatics (240.86 MB)
002 Biot savarts law (241.18 MB)
003 Amperes circuit or work law (139.65 MB)
004 Amperes circuit or work law proof (86.85 MB)
005 H due to infinite sheet current (185.27 MB)
006 maxwells equation and magnetic flux density (128.23 MB)
007 Magnetic force (221.66 MB)
008 Faraday's law (175.11 MB)
009 Transformer EMF and motional induced EMF (94.78 MB)
010 Transformer EMF and motional induced EMF (153.61 MB)
011 Transformer EMF and motional induced EMF (144.53 MB)
012 Modified Ampere circuital law for time varying fields (114.59 MB)
013 Displacement current density and current (161.54 MB)
014 Magnetic Force on current element (53.22 MB)
015 Amperes force law between two conductors (175.29 MB)
016 Maxwell's equations (256.13 MB)
017 Maxwell equations for time varying fields (157.5 MB)
018 Maxwell's equations for sinusoidal variations (126.59 MB)
001 Electromagnetic wave characteristics introduction (206.76 MB)
002 Wave equation for lossless delta (150.86 MB)
003 Wave equations for lossless conducting medium (204.79 MB)
004 EM Wave equation in phasor form (98.05 MB)
005 EM wave equation for conducting medium (57.69 MB)
006 Wave propagation in a lossless medium (159.92 MB)
007 Wave propagation in lossless conducting medium (103.26 MB)
008 Attenuation constant and phase constant (237.92 MB)
009 Conductors and dielectric (148.72 MB)
010 EM wave equation in good dielectric (56.44 MB)
011 EM wave characteristics in good conductor (142.62 MB)
012 Wave propagation in good condition good deltax continued (138.91 MB)
013 Skin depth (173.38 MB)
014 Uniform plane wave (136.03 MB)
015 Uniform plane wave characteristics and properties (143.21 MB)
016 polarization of uniform plane wave (322.18 MB)
001 Introduction to transmission lines introduction to transmission lines (166.3 MB)
002 Transmission line equations (166.47 MB)
003 Transmission line equations (285.35 MB)
004 Transmission line equations continued (209.01 MB)
005 Infinite transmission line (206.45 MB)
006 Characteristic impedance (162.69 MB)
007 Characteristic impedance for finite length (168.77 MB)
008 lossless transmission line (107.4 MB)
009 Distortionless transmission line (199.15 MB)
010 Distortions and its properties (522.1 MB)
001 Input impedance of lossless infinitet transmission line OC and SClines (286.82 MB)
002 Input impedance of lossly infinitet transmission line OC and SClines (180.71 MB)
003 Input impedance of lossless infinitet transmission line OC and SClines (104.55 MB)
004 Reflection coefficient (305.44 MB)
002 What is fielld and explaining of all the fields including electromagnatic field (327.33 MB)
003 Position Vector (58.93 MB)
004 Distance vector (74 MB)
005 Types of vectors and Unit Vector clear explanation (342.9 MB)
006 Formulas used in Electromagnetics---Vector Algebra (67.82 MB)
007 Formulas used in Electromagnetics---Vector Algebra Contd , (89.69 MB)
008 Formulas used in Electromagnetics---Vector Algebra Contd , (71.06 MB)
009 Formulas used in Electromagnetics---Vector Algebra Contd , (87.83 MB)
010 Formulas used in Electromagnetics---Vector Algebra (129.01 MB)
011 Formulas used in Electromagnetics---Vector Algebra Contd , (66.76 MB)
012 Review of Coordinate systems-Rectangular coordinate system (309.4 MB)
013 Cylindrical coordinate system (160.18 MB)
014 Spherical Coordinate system (192.26 MB)
015 Point Transformation Cylindrical to Rectangular vice-versa (98.05 MB)
016 Rectangular to Cylindrical point transformation (218.84 MB)
017 Revision of all Point transformation formulas (82.96 MB)
018 Rectangular to Cylindrical Vector transformation (190.72 MB)
019 Cylindrical to Rectangular to Cylindrical Vector transformation contd , (90.18 MB)
020 Rectangular to Spherical Vector transformation contd , (228.38 MB)
021 What is del operator del with temperature (145.85 MB)
022 Divergence or Dot product (168.14 MB)
023 Divergence Theorem (229.47 MB)
024 Mathematical expression of Curl (43.93 MB)
025 Curl (128.75 MB)
027 physical characteristics of a Divergence (386.18 MB)
028 physical characteristics of a Curl (210.66 MB)
029 Curl proof (362.31 MB)
030 Stokes Theorem (156.69 MB)
001 Coulombs Law (245.53 MB)
002 Coulombs law contd , (84.92 MB)
003 Coulombs law contd , (245.74 MB)
004 Coulombs law applied due to system of charges (291.6 MB)
005 Electric Field and Electric field intensity (83.99 MB)
006 Electric field due to system of charges (177.66 MB)
007 Electric field lines and its properties (70.89 MB)
008 Line integral (204.81 MB)
009 Surface integral and Volume integral (223.56 MB)
010 Continuous charge distributions (204.37 MB)
011 Electric field intensity due to various charge distributions (216.22 MB)
012 Electric flux lines (87.25 MB)
013 Electric flux density (24.41 MB)
014 Electric flux density contd , (74.39 MB)
015 Electric flux density due to various charge distributions (157.43 MB)
016 Gauss law (229.75 MB)
017 Gauss theorem proof (131.31 MB)
018 Continuity variation for time varying fields (64.81 MB)
019 Relaxation time (105.03 MB)
020 Electric potential (126.89 MB)
021 Electric potential due to different charges (102.98 MB)
022 Maxwells equations (135.18 MB)
023 Relationbetween E and H (172.93 MB)
024 Energy density and energy stored in a electrostatic field (220.57 MB)
025 Energy density and energy stored in a electrostatic field contd , (157.01 MB)
026 Poissons equation (45.47 MB)
027 laplace equation (174.9 MB)
028 Uniqueness theorem (196.74 MB)
001 Introduction to magnetostatics (240.86 MB)
002 Biot savarts law (241.18 MB)
003 Amperes circuit or work law (139.65 MB)
004 Amperes circuit or work law proof (86.85 MB)
005 H due to infinite sheet current (185.27 MB)
006 maxwells equation and magnetic flux density (128.23 MB)
007 Magnetic force (221.66 MB)
008 Faraday's law (175.11 MB)
009 Transformer EMF and motional induced EMF (94.78 MB)
010 Transformer EMF and motional induced EMF (153.61 MB)
011 Transformer EMF and motional induced EMF (144.53 MB)
012 Modified Ampere circuital law for time varying fields (114.59 MB)
013 Displacement current density and current (161.54 MB)
014 Magnetic Force on current element (53.22 MB)
015 Amperes force law between two conductors (175.29 MB)
016 Maxwell's equations (256.13 MB)
017 Maxwell equations for time varying fields (157.5 MB)
018 Maxwell's equations for sinusoidal variations (126.59 MB)
001 Electromagnetic wave characteristics introduction (206.76 MB)
002 Wave equation for lossless delta (150.86 MB)
003 Wave equations for lossless conducting medium (204.79 MB)
004 EM Wave equation in phasor form (98.05 MB)
005 EM wave equation for conducting medium (57.69 MB)
006 Wave propagation in a lossless medium (159.92 MB)
007 Wave propagation in lossless conducting medium (103.26 MB)
008 Attenuation constant and phase constant (237.92 MB)
009 Conductors and dielectric (148.72 MB)
010 EM wave equation in good dielectric (56.44 MB)
011 EM wave characteristics in good conductor (142.62 MB)
012 Wave propagation in good condition good deltax continued (138.91 MB)
013 Skin depth (173.38 MB)
014 Uniform plane wave (136.03 MB)
015 Uniform plane wave characteristics and properties (143.21 MB)
016 polarization of uniform plane wave (322.18 MB)
001 Introduction to transmission lines introduction to transmission lines (166.3 MB)
002 Transmission line equations (166.47 MB)
003 Transmission line equations (285.35 MB)
004 Transmission line equations continued (209.01 MB)
005 Infinite transmission line (206.45 MB)
006 Characteristic impedance (162.69 MB)
007 Characteristic impedance for finite length (168.77 MB)
008 lossless transmission line (107.4 MB)
009 Distortionless transmission line (199.15 MB)
010 Distortions and its properties (522.1 MB)
001 Input impedance of lossless infinitet transmission line OC and SClines (286.82 MB)
002 Input impedance of lossly infinitet transmission line OC and SClines (180.71 MB)
003 Input impedance of lossless infinitet transmission line OC and SClines (104.55 MB)
004 Reflection coefficient (305.44 MB)
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