Modules / Lectures
Module NameDownload


Sl.No Chapter Name MP4 Download
1Lecture 1 : Course Outline and IntroductionDownload
2Lecture 2 : Analytical and Numerical MethodsDownload
3Lecture 3 : Revisiting EM Concepts: Vector Algebra & Coordinate SystemsDownload
4Lecture 4 : Revisiting EM Concepts: Vector Calculus and ElectrostaticsDownload
5Lecture 5 : Revisiting EM Concepts: Current Densities and Electric Fields in MaterialsDownload
6Lecture 6 : Revisiting EM Concepts: Electrostatic Boundary Conditions and ShieldingDownload
7Lecture 7 : Revisiting EM Concepts: MagnetostaticsDownload
8Lecture 8 : Revisiting EM Concepts: Magnetic Forces and MaterialsDownload
9Lecture 9 : Revisiting EM Concepts: Time Varying FieldsDownload
10Lecture 10 : Revisiting EM Concepts: Theory of Eddy CurrentsDownload
11Lecture 11 : FEM: Variational ApproachDownload
12Lecture 12 : Finding Functional for PDEsDownload
13Lecture 13 : Whole Domain ApproximationDownload
14Lecture 14 : 1D FEM: Problem Definition and Shape FunctionDownload
15Lecture 15 : 1D FEM: ProcedureDownload
16Lecture 16 : 1D FEM: Scilab CodeDownload
17Lecture 17 : 2D FEM: Problem Definition and Shape FunctionsDownload
18Lecture 18 : 2D FEM: ProcedureDownload
19Lecture 19 : 2D FEM Scilab Code: Manual MeshingDownload
20Lecture 20 : 2D FEM Code: Gmsh and ScilabDownload
21Lecture 21 : Computation of B and H Field and Method of Weighted ResidualsDownload
22Lecture 22 : Galerkin MethodDownload
23Lecture 23 : Calculation of Leakage Inductance of a TransformerDownload
24Lecture 24 : Calculation of Inductance of an Induction Motor and a Gapped-Core Shunt ReactorDownload
25Lecture 25 : Insulation Design Using FE AnalysisDownload
26Lecture 26 : Quadratic Finite ElementsDownload
27Lecture 27 : Time Harmonic FE AnalysisDownload
28Lecture 28 : Calculation of Eddy Current LossesDownload
29Lecture 29 : Eddy Losses in Transformer WindingsDownload
30Lecture 30 : Torque Speed Characteristics of an Induction Motor and FE Analysis of Axisymmetric ProblemDownload
31Lecture 31 : Permanent Magnets: TheoryDownload
32Lecture 32 : Permanent Magnets: FEM ImplementationDownload
33Lecture 33 : Periodic and Antiperiodic Boundary Conditions in Rotating MachinesDownload
34Lecture 34 : FE Analysis of Rotating MachinesDownload
35Lecture 35 : Voltage Fed Coupled Circuit Field AnalysisDownload
36Lecture 36 : Current Fed Coupled Circuit Field AnalysisDownload
37Lecture 37 : Transient FE Analysis Download
38Lecture 38 : Nonlinear FE AnalysisDownload
39Lecture 39 : Computation of Forces using Maxwell Stress TensorDownload
40Lecture 40 : Computation of force using virtual work methodDownload

Sl.No Chapter Name English
1Lecture 1 : Course Outline and IntroductionDownload
Verified
2Lecture 2 : Analytical and Numerical MethodsDownload
Verified
3Lecture 3 : Revisiting EM Concepts: Vector Algebra & Coordinate SystemsDownload
Verified
4Lecture 4 : Revisiting EM Concepts: Vector Calculus and ElectrostaticsDownload
Verified
5Lecture 5 : Revisiting EM Concepts: Current Densities and Electric Fields in MaterialsDownload
Verified
6Lecture 6 : Revisiting EM Concepts: Electrostatic Boundary Conditions and ShieldingDownload
Verified
7Lecture 7 : Revisiting EM Concepts: MagnetostaticsDownload
Verified
8Lecture 8 : Revisiting EM Concepts: Magnetic Forces and MaterialsDownload
Verified
9Lecture 9 : Revisiting EM Concepts: Time Varying FieldsDownload
Verified
10Lecture 10 : Revisiting EM Concepts: Theory of Eddy CurrentsDownload
Verified
11Lecture 11 : FEM: Variational ApproachDownload
Verified
12Lecture 12 : Finding Functional for PDEsDownload
Verified
13Lecture 13 : Whole Domain ApproximationDownload
Verified
14Lecture 14 : 1D FEM: Problem Definition and Shape FunctionDownload
Verified
15Lecture 15 : 1D FEM: ProcedureDownload
Verified
16Lecture 16 : 1D FEM: Scilab CodeDownload
Verified
17Lecture 17 : 2D FEM: Problem Definition and Shape FunctionsPDF unavailable
18Lecture 18 : 2D FEM: ProcedurePDF unavailable
19Lecture 19 : 2D FEM Scilab Code: Manual MeshingPDF unavailable
20Lecture 20 : 2D FEM Code: Gmsh and ScilabPDF unavailable
21Lecture 21 : Computation of B and H Field and Method of Weighted ResidualsPDF unavailable
22Lecture 22 : Galerkin MethodPDF unavailable
23Lecture 23 : Calculation of Leakage Inductance of a TransformerPDF unavailable
24Lecture 24 : Calculation of Inductance of an Induction Motor and a Gapped-Core Shunt ReactorPDF unavailable
25Lecture 25 : Insulation Design Using FE AnalysisPDF unavailable
26Lecture 26 : Quadratic Finite ElementsPDF unavailable
27Lecture 27 : Time Harmonic FE AnalysisPDF unavailable
28Lecture 28 : Calculation of Eddy Current LossesPDF unavailable
29Lecture 29 : Eddy Losses in Transformer WindingsPDF unavailable
30Lecture 30 : Torque Speed Characteristics of an Induction Motor and FE Analysis of Axisymmetric ProblemPDF unavailable
31Lecture 31 : Permanent Magnets: TheoryPDF unavailable
32Lecture 32 : Permanent Magnets: FEM ImplementationPDF unavailable
33Lecture 33 : Periodic and Antiperiodic Boundary Conditions in Rotating MachinesPDF unavailable
34Lecture 34 : FE Analysis of Rotating MachinesPDF unavailable
35Lecture 35 : Voltage Fed Coupled Circuit Field AnalysisPDF unavailable
36Lecture 36 : Current Fed Coupled Circuit Field AnalysisPDF unavailable
37Lecture 37 : Transient FE Analysis PDF unavailable
38Lecture 38 : Nonlinear FE AnalysisPDF unavailable
39Lecture 39 : Computation of Forces using Maxwell Stress TensorPDF unavailable
40Lecture 40 : Computation of force using virtual work methodPDF unavailable


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2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available