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Sl.No Chapter Name MP4 Download
1Chain rule of differentiationDownload
2Gradient, Divergence, and Curl operatorsDownload
3Common theorems in vector calculusDownload
4Corollaries of these theoremsDownload
5Mathematical HistoryDownload
6Different regimes of Maxwell's equationsDownload
7Different ways of solving themDownload
8Maxwell's Equations Download
9Boundary ConditionsDownload
10Uniqueness TheoremDownload
11Equivalence TheoremDownload
12Simple Numerical IntegrationDownload
13Interpolating a FunctionDownload
14Gauss QuadratureDownload
15Line Charge ProblemDownload
16Solving the Integral EquationDownload
17Basis FunctionsDownload
18Helmholtz EquationDownload
19Solving Helmholtz EquationDownload
20Huygen's principle & the Extinction theoremDownload
21Formulating the integral equationsDownload
22Conclusions of surface integral equationsDownload
23Motivations for Green's functionsDownload
24A one-dimensional exampleDownload
251-D example: alternate representationDownload
262-D wave example : finding solutionDownload
272D wave example: boundary condsDownload
282-D example : Evaluating Constants - Part 1Download
292-D example : Evaluating Constants - Part 2Download
303-D exampleDownload
31Motivation for MoMDownload
32Linear Vector SpacesDownload
33Formulating Method of MomentsDownload
34Surface Integral Equations: RecapDownload
35Surface Integral Equations: Evaluating the Integrals part 1Download
36Surface Integral Equations: Evaluating the Integrals part 2Download
37Surface Integral Equations: ConclusionDownload
38Volume Integral Equations:Setting UpDownload
39Volume Integral Equations:Solving part 1Download
40Volume Integral Equations:Solving part 2Download
41Volume Integral Equations:SummaryDownload
42Surface integral equations for PECDownload
43Surface v/s volume integral equationsDownload
44Definition of radar cross-sectionDownload
45Computational ConsiderationsDownload
46History & Overview of the FEMDownload
47Basic framework of FEMDownload
481D Basis FunctionsDownload
492D Basis FunctionsDownload
50Weak form of 1D-FEM Part-1Download
51Weak form of 1D-FEM Part-2Download
52Generating System of Equations for 1D FEMDownload
531D wave equation: FormulationDownload
541D Wave Equation: Boundary ConditionsDownload
551D Wave Equation: Basis and testing functionsDownload
561D Wave Equation: Matrix assemblyDownload
572D FEM Shape FunctionsDownload
58Converting to Weak Form (2D FEM)Download
59Radiation Boundary ConditionDownload
60Total field formulationDownload
61Scattered field formulationDownload
62Comparing total and scattered field formulationDownload
63Matrix assembly - Part 1Download
64Matrix assembly - Part 2Download
65Computing Far FieldDownload
66Numerical Aspects of 2D FEMDownload
67Summary of FEM ProcedureDownload
68Introduction to FDTDDownload
692D FDTD Formulation : StencilDownload
702D FDTD Formulation : Time SteppingDownload
712D FDTD Formulation : Divergence ConditionsDownload
72Stability Criteria - Part 1Download
73Stability Criteria - Part 2Download
74Stability Criteria - Higher DimensionsDownload
75Accuracy Considerations - 1DDownload
76Accuracy Considerations - Higher DimensionsDownload
77Dealing with non-dispersive dielectric mediaDownload
78Dealing with dispersive dielectric mediaDownload
79Debye Model - Part 1Download
80Debye Model - Part 2Download
81Absorbing Boundary Conditions - 1DDownload
82Absorbing Boundary Conditions - 2DDownload
83Implementing ABC in FDTDDownload
84Failure of ABCDownload
85 Perfectly Matched Layers(PML) - IntroductionDownload
86Implementing PML using Coordinate StretchingDownload
87PML - Phase MatchingDownload
88PML - Tangential Boundary ConditionsDownload
89Perfectly Matched InterfaceDownload
90PML theory - SummaryDownload
91Implementing PML into FDTD - Part 1Download
92Implementing PML into FDTD - Part 2Download
93Sources in FDTD - CurrentsDownload
94Sources in FDTD - Part 2Download
95Summary of FDTDDownload
96 MEEP : FDTD in actionDownload
97Inverse Problems - IntroductionDownload
98Inverse Problems - Mathematical FormulationDownload
99Inverse Problems - ChallengesDownload
100Inverse Problems - Non-LinearityDownload
101Inverse Problems - SummaryDownload
102Antennas - Potential formulationDownload
103Antennas - Hertz Dipole - Part 1Download
104Antennas - Hertz Dipole - Part 2Download
105Antennas - Radiation PatternsDownload
106Antennas - Motivation for CEMDownload
107Antennas - Pocklington’s Integral Equation - Part 1Download
108Antennas - Pocklington’s Integral Equation - Part 2Download
109Antennas - Source ModelingDownload
110Antennas - Circuit ModelDownload
111Antennas - MoM detailsDownload
112Antennas - Mutual Coupling - Part 1Download
113Antennas - Mutual Coupling - Part 2Download
114Hybrid Methods - MotivationDownload
115Finite Element-Boundary Integral - Part 1Download
116Finite Element-Boundary Integral - Part 2Download
117Finite Element-Boundary Integral - Part 3Download

Sl.No Chapter Name English
1Chain rule of differentiationDownload
Verified
2Gradient, Divergence, and Curl operatorsDownload
Verified
3Common theorems in vector calculusDownload
Verified
4Corollaries of these theoremsDownload
Verified
5Mathematical HistoryDownload
Verified
6Different regimes of Maxwell's equationsDownload
Verified
7Different ways of solving themDownload
Verified
8Maxwell's Equations Download
Verified
9Boundary ConditionsDownload
Verified
10Uniqueness TheoremDownload
Verified
11Equivalence TheoremDownload
Verified
12Simple Numerical IntegrationDownload
Verified
13Interpolating a FunctionDownload
Verified
14Gauss QuadratureDownload
Verified
15Line Charge ProblemDownload
Verified
16Solving the Integral EquationDownload
Verified
17Basis FunctionsDownload
Verified
18Helmholtz EquationDownload
Verified
19Solving Helmholtz EquationDownload
Verified
20Huygen's principle & the Extinction theoremDownload
Verified
21Formulating the integral equationsDownload
Verified
22Conclusions of surface integral equationsDownload
Verified
23Motivations for Green's functionsDownload
Verified
24A one-dimensional exampleDownload
Verified
251-D example: alternate representationDownload
Verified
262-D wave example : finding solutionDownload
Verified
272D wave example: boundary condsDownload
Verified
282-D example : Evaluating Constants - Part 1Download
Verified
292-D example : Evaluating Constants - Part 2Download
Verified
303-D exampleDownload
Verified
31Motivation for MoMDownload
Verified
32Linear Vector SpacesDownload
Verified
33Formulating Method of MomentsDownload
Verified
34Surface Integral Equations: RecapDownload
Verified
35Surface Integral Equations: Evaluating the Integrals part 1Download
Verified
36Surface Integral Equations: Evaluating the Integrals part 2Download
Verified
37Surface Integral Equations: ConclusionDownload
Verified
38Volume Integral Equations:Setting UpDownload
Verified
39Volume Integral Equations:Solving part 1Download
Verified
40Volume Integral Equations:Solving part 2Download
Verified
41Volume Integral Equations:SummaryDownload
Verified
42Surface integral equations for PECDownload
Verified
43Surface v/s volume integral equationsDownload
Verified
44Definition of radar cross-sectionDownload
Verified
45Computational ConsiderationsDownload
Verified
46History & Overview of the FEMDownload
Verified
47Basic framework of FEMDownload
Verified
481D Basis FunctionsDownload
Verified
492D Basis FunctionsDownload
Verified
50Weak form of 1D-FEM Part-1Download
Verified
51Weak form of 1D-FEM Part-2Download
Verified
52Generating System of Equations for 1D FEMDownload
Verified
531D wave equation: FormulationDownload
Verified
541D Wave Equation: Boundary ConditionsDownload
Verified
551D Wave Equation: Basis and testing functionsDownload
Verified
561D Wave Equation: Matrix assemblyDownload
Verified
572D FEM Shape FunctionsDownload
Verified
58Converting to Weak Form (2D FEM)Download
Verified
59Radiation Boundary ConditionDownload
Verified
60Total field formulationDownload
Verified
61Scattered field formulationDownload
Verified
62Comparing total and scattered field formulationDownload
Verified
63Matrix assembly - Part 1Download
Verified
64Matrix assembly - Part 2Download
Verified
65Computing Far FieldDownload
Verified
66Numerical Aspects of 2D FEMDownload
Verified
67Summary of FEM ProcedureDownload
Verified
68Introduction to FDTDDownload
Verified
692D FDTD Formulation : StencilDownload
Verified
702D FDTD Formulation : Time SteppingDownload
Verified
712D FDTD Formulation : Divergence ConditionsDownload
Verified
72Stability Criteria - Part 1Download
Verified
73Stability Criteria - Part 2Download
Verified
74Stability Criteria - Higher DimensionsDownload
Verified
75Accuracy Considerations - 1DDownload
Verified
76Accuracy Considerations - Higher DimensionsDownload
Verified
77Dealing with non-dispersive dielectric mediaDownload
Verified
78Dealing with dispersive dielectric mediaDownload
Verified
79Debye Model - Part 1Download
Verified
80Debye Model - Part 2Download
Verified
81Absorbing Boundary Conditions - 1DDownload
Verified
82Absorbing Boundary Conditions - 2DDownload
Verified
83Implementing ABC in FDTDDownload
Verified
84Failure of ABCDownload
Verified
85 Perfectly Matched Layers(PML) - IntroductionDownload
Verified
86Implementing PML using Coordinate StretchingDownload
Verified
87PML - Phase MatchingDownload
Verified
88PML - Tangential Boundary ConditionsDownload
Verified
89Perfectly Matched InterfaceDownload
Verified
90PML theory - SummaryDownload
Verified
91Implementing PML into FDTD - Part 1Download
Verified
92Implementing PML into FDTD - Part 2Download
Verified
93Sources in FDTD - CurrentsDownload
Verified
94Sources in FDTD - Part 2Download
Verified
95Summary of FDTDDownload
Verified
96 MEEP : FDTD in actionDownload
Verified
97Inverse Problems - IntroductionDownload
Verified
98Inverse Problems - Mathematical FormulationDownload
Verified
99Inverse Problems - ChallengesDownload
Verified
100Inverse Problems - Non-LinearityDownload
Verified
101Inverse Problems - SummaryDownload
Verified
102Antennas - Potential formulationDownload
Verified
103Antennas - Hertz Dipole - Part 1Download
Verified
104Antennas - Hertz Dipole - Part 2Download
Verified
105Antennas - Radiation PatternsDownload
Verified
106Antennas - Motivation for CEMDownload
Verified
107Antennas - Pocklington’s Integral Equation - Part 1Download
Verified
108Antennas - Pocklington’s Integral Equation - Part 2Download
Verified
109Antennas - Source ModelingDownload
Verified
110Antennas - Circuit ModelDownload
Verified
111Antennas - MoM detailsDownload
Verified
112Antennas - Mutual Coupling - Part 1Download
Verified
113Antennas - Mutual Coupling - Part 2Download
Verified
114Hybrid Methods - MotivationDownload
Verified
115Finite Element-Boundary Integral - Part 1Download
Verified
116Finite Element-Boundary Integral - Part 2Download
Verified
117Finite Element-Boundary Integral - Part 3Download
Verified


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3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
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