Electromagnetics

Electromagnetics Bachelor of Engineering(BE) videos According to syllabus of Institute of Engineering(IoE), Tribhuwan University (TU)

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Last updated Fri, 01-Apr-2022 Nepali
What will I learn?
  • After Completion of this Course, Students will get basics of Electromagnetics based on syllabus of IoE and will be able to secure good score in IoE exam.

Curriculum for this course
240 Lessons 39h 0m
0. Marks Distribution
1 Lessons 15m
  • Syllabus and Marks Distribution 15 Minutes Free
  • 1. Introduction of Contents 2 Minutes Free
  • 2. Introduction of Co-ordinate system 7 Minutes Free
  • 3. Scalars and Vectors 5 Minutes
  • 4. Algebraic Operation Involving Vectors 12 Minutes
  • 5. Rectangular co-ordinate system 11 Minutes
  • 6. Cylindrical Co-ordinate System 10 Minutes
  • 7. Spherical Co-ordinate system 10 Minutes
  • 8. Dot product of Cylindrical and Rectangular co-ordinate system_1 7 Minutes
  • 9. dot product of Rectangular and Spherical Co-ordinate System 10 Minutes
  • 10. Dot Product of unit vector in Cylindrical and Spherical Co-ordinate System 4 Minutes
  • 11. Cross Products 4 Minutes
  • 12. Angle measument 6 Minutes
  • 13. Numerical Example-1 6 Minutes
  • 14. Numerical Example-2 6 Minutes
  • 15. Numerical 4 (2074 Ashwin) 7 Minutes
  • 16. Numerical Example-3 7 Minutes
  • 1. Introduction of Contents 4 Minutes
  • 2. Coulomb's Law 8 Minutes
  • 3. Electric Field Intensity 4 Minutes
  • 4. Electric Field Intensity due to point charge 15 Minutes
  • 5. Charge Distribution 5 Minutes
  • 6. Electric Field Intensity due to Line Charge 19 Minutes
  • 7. Electric Field Intensity due to Infinite sheet of Charge 16 Minutes
  • 8. Numerical Example-1 12 Minutes
  • 9. Numerical Example-2 9 Minutes
  • 10. Electric Flux and Electric Flux Density 5 Minutes
  • 11. Gauss' Law 10 Minutes
  • 12. Application of Gauss law- field Due to point Charge 6 Minutes
  • 13. Field due to Line Charge Using Gauss' Law 10 Minutes
  • 14. Field due to Infinite Plate using Gauss' Law 6 Minutes
  • 15. Electric field due to infinite coaxial cable 10 Minutes
  • 16. Divergence and it's Physical Interpretation 10 Minutes
  • 17. Maxwell's First Eqauation and Divergence Theorem 6 Minutes
  • 18. Important Expression of Divergence 4 Minutes
  • 19. Numerical Example-3 10 Minutes
  • 20. Numerical Example-4 9 Minutes
  • 21. Potential Difference and potential at a point 14 Minutes
  • 22. Potential Gradient 14 Minutes
  • 23. The Dipole 12 Minutes
  • 24. Energy Density In Electrostatics Field 16 Minutes
  • 25. Numerical Example-5 8 Minutes
  • 26. Numerical Example-6 14 Minutes
  • 27. Numerical Example-7 7 Minutes
  • 28. Current and Current Density 8 Minutes
  • 29. Principle of conservation of charge and continuity equation 8 Minutes
  • 30. Point Form of Ohm's Law 3 Minutes
  • 31. Ralaxation Time Constant 9 Minutes
  • 32. Boundary Condition Between the Conductor and Free Space 14 Minutes
  • 33. Numerical Example-8 9 Minutes
  • 34. Dielectric and Polarization 10 Minutes
  • 35. Relationship between D,E and P 9 Minutes
  • 36. Boundary Condition between perfect Dielectric Medium 11 Minutes
  • 37. Capacitor and Capacitance 3 Minutes
  • 38. Numerical Example-9 14 Minutes
  • 39. Derivation of Poisson's and Laplace's Equation 4 Minutes
  • 40. Uniqueness Theorem 16 Minutes
  • 41. One Dimensional Boundary Value Problem In Electrostatics 10 Minutes
  • 42. Capacitane of parellel plate Capacitor using one dimension Boundary value 6 Minutes
  • 43. Capacitance of Co-axial Capacitor using one dimensional Boundary Value 15 Minutes
  • 44. Capacitance of Spherical Co-ordinaate using 1D Boundary Values- 12 Minutes
  • 45. Two Dimensional Boundary Value Problem 4 Minutes
  • 46. Numerical example-10 7 Minutes
  • 1. Introduction of Contents 4 Minutes
  • 2. Magnetic Material Properties 6 Minutes
  • 3. Biot- Savart Law 6 Minutes
  • 4. Application of Biot-Savart's law 14 Minutes
  • 5. Ampere's Circuital Law 3 Minutes
  • 6. Field Due to Infinitely Long filament 5 Minutes
  • 7. Field due to Infinitely Co-axial Cable 11 Minutes
  • 8. Curl 7 Minutes
  • 9. Stokes' Theorem 7 Minutes
  • 10. Magnetic Flux and Density 3 Minutes
  • 11. The Scalar and Vector Magnetic Potential 8 Minutes
  • 12. Force on moving charge 3 Minutes
  • 13. Magnetic dipole and Magnetization 3 Minutes
  • 14. Relationship Between B, H & M 6 Minutes
  • 15. Boundary Condition of Magnetic Field 11 Minutes
  • 16. Numerical Example-1 17 Minutes
  • 17. Numerical Example-2 6 Minutes
  • 18. Numerical Example-3 5 Minutes
  • 19. Numerical Example-4 6 Minutes
  • 20. Numerical Example-5 7 Minutes
  • 21. Numerical Example-6 11 Minutes
  • 22. Numerical Example-7 17 Minutes
  • 1. Introduction of Contents 4 Minutes
  • 2. Faraday's Law of Electromagnetic Induction 9 Minutes
  • 3. Motional and Transformer Induction 11 Minutes
  • 4. Ampere's Law Conflicting with the Continuity Equation 5 Minutes
  • 5. Displacement Current 12 Minutes
  • 6. Maxwell's equation for static and magnetic fields 7 Minutes
  • 7. Generalized Form of Maxwell's Equation 12 Minutes
  • 8. Numerical Example-1 17 Minutes
  • 9. Characterstics of different medium 8 Minutes
  • 10. Propagation Constant 15 Minutes
  • 11. Wave impedance and Intrinsic Impedance 4 Minutes
  • 12. Phasor 10 Minutes
  • 13. Wave equation in Perfect Dielectric Medium 20 Minutes
  • 14. Wave Equation in Lossy Dielectric Medium 22 Minutes
  • 15. Pointing Vector 4 Minutes
  • 16. loss Tangent 3 Minutes
  • 17. Skin effect and Skin Depth 6 Minutes
  • 18. Reflection of Uniform Plane Wave at normal Incidence 12 Minutes
  • 19. Standing Wave Ratio 15 Minutes
  • 20. Reflection of Uniform Plane at Oblique Incidence 21 Minutes
  • 21. Numerical Example-2 5 Minutes
  • 22. Numerical Example-3 13 Minutes
  • 23. Numerical Example-4 8 Minutes
  • 24. Numerical Example-5 11 Minutes
  • 25. Numerical Example-6 5 Minutes
  • 26. Numerical Example-7 8 Minutes
  • 27. Numerical Example-8 7 Minutes
  • 28. Numerical Example-9 13 Minutes
  • 29. Numerical Example-10 8 Minutes
  • 1. Introduction of Content 4 Minutes
  • 2. Transmission line and its parameters 6 Minutes
  • 3. Propagation Constant & characterstics Impedence of Transmission Line 15 Minutes
  • 4. Give Reason Question 3 Minutes
  • 5. Reflection Coefficient, VSWR, Input Impedence 20 Minutes
  • 6. Impedance Matching 13 Minutes
  • 7. Numerical Example-1 7 Minutes
  • 8. Numerical Example-2 3 Minutes
  • 9. Numerical example-3 8 Minutes
  • 10. Numerical example-4 13 Minutes
  • 11. Smith Chart 8 Minutes
  • 12. Numerical Example-5 15 Minutes
  • 13. Waveguide 9 Minutes
  • 14. Types of Waveguide 4 Minutes
  • 15. Mode of Waveguide 7 Minutes
  • 16. Numerical Example-6 7 Minutes
  • 17. Numerical Example-7 6 Minutes
  • 18. Antennas 11 Minutes
  • 19. Types of Antennas 4 Minutes
  • 20. Radiation From a Dipole Antenna 4 Minutes
  • Chapter 1. Vector Analysis and Co-ordinate System
    • Chapter 1 26 Minutes
    Chapter 2. Electric field
    • 1. Introduction of Contents 4 Minutes
    • 2. Coulomb's Law 8 Minutes
    • 3. Electric Field Intensity 4 Minutes
    • 4. Electric Field Intensity due to point charge 15 Minutes
    • 5.Charge Distribution 5 Minutes
    • 6. Electric Field Intensity due to Line Charge 19 Minutes
    • 7. Electric Field Intensity due to Infinite sheet of Charge 16 Minutes
    • 8. Numerical Example-1 12 Minutes
    • 9 Numerical Example-2 9 Minutes
    • 10. Electric Flux and Electric Flux Density 5 Minutes
    • 11. Gauss' Law 10 Minutes
    • 12. Application of Gauss law- field Due to point Charge 6 Minutes
    • 13. Field due to Line Charge Using Gauss' Law 10 Minutes
    • 14. field due to Infinite Plate using Gauss' Law 6 Minutes
    • 15. Divergence and it's Physical Interpretation 10 Minutes
    • 16. Maxwell's first Eqauation and divergence Theorem 6 Minutes
    • 17. Important Expression of Divergence 4 Minutes
    • 18. Numerical Example-3 10 Minutes
    • 19. Numerical Example-4 9 Minutes
    • 20. Potential Difference and potential at a point 14 Minutes
    • 21. Potential Gradient 14 Minutes
    • 22. The Dipole 12 Minutes
    • 23. Energy Density In Electrostatics Field 16 Minutes
    • 24. Numerical Example-5 8 Minutes
    • 25. Numerical Example-6 14 Minutes
    • 26. Numerical Example-7 7 Minutes
    • 27. Current and Current Density 8 Minutes
    • 28. Principle of conservation of charge and continuity equation 8 Minutes
    • 29. Point Form of Ohm's Law 3 Minutes
    • 30. Ralaxation Time Constant 9 Minutes
    • 31. Boundary Condition Between the Conductor and Free Space 14 Minutes
    • 32. Numerical Example-8 9 Minutes
    • 33. Dielectric and Polarization 10 Minutes
    • 34. Boundary Condition between perfect Dielectric Madium 11 Minutes
    • 35. Calpacitor and Capacitance 3 Minutes
    • 36. Numerical Example-9 12 Minutes
    • 37. Derivation of Poisson's and Laplace's Equation 4 Minutes
    • 38. Uniqueness Theorem 16 Minutes
    • 39. One Dimensional Boundary Value Problem In Electrostatics 10 Minutes
    • 40. Capacitane of parellel plate Capacitor using one dimension Boundary value 6 Minutes
    • 41. Capacitance of Co-axial Capacitor using one dimensional Boundary Value 15 Minutes
    • 42. Capacitance of Spherical Co-ordinaate using 1D Boundary Values- 12 Minutes
    • 43. Two Dimensional Boundary Value Problem 4 Minutes
    • 44. Numerical example-10 7 Minutes
    2074 Chaitra
    • Question No. 1 7 Minutes
    • Question No. 2 9 Minutes
    • Question No. 3 7 Minutes
    • Question No. 4 10 Minutes
    • Question No. 5 12 Minutes
    • Question No. 6 15 Minutes
    • Question No. 7 10 Minutes
    • Question No. 8 23 Minutes
    • Question No. 9 11 Minutes
    • Question No. 10 5 Minutes
    • Question No. 11 9 Minutes
    • Question No. 12 12 Minutes
    2075 Ashwin
    • Question No. 1 6 Minutes
    • Question No. 2 18 Minutes
    • Question No. 3 12 Minutes
    • Question No. 4 6 Minutes
    • Question No. 5 16 Minutes
    • Question No. 6 20 Minutes
    • Question No. 7 12 Minutes
    • Question No. 8 10 Minutes
    • Question No. 9 8 Minutes
    • Question No. 10 6 Minutes
    • Question No. 11 8 Minutes
    • Question No. 12 6 Minutes
    2075 Chaitra
    • Question No. 1 8 Minutes
    • Question No. 2 15 Minutes
    • Question No. 3 12 Minutes
    • Question No. 4 8 Minutes
    • Question No. 5 11 Minutes
    • Question No. 6 6 Minutes
    • Question No. 7 6 Minutes
    • Question No. 8 4 Minutes
    • Question No. 9 22 Minutes
    • Question No. 10 7 Minutes
    • Question No. 11 11 Minutes
    • Question No. 12 11 Minutes
    • Question No. 13 5 Minutes
    2076 Ashwin
    • Question No. 1 13 Minutes
    • Question No. 2 7 Minutes
    • Question No. 3 17 Minutes
    • Question No. 4 5 Minutes
    • Question No. 5 6 Minutes
    • Question No. 6 10 Minutes
    • Question No. 7 13 Minutes
    • Question No. 8 9 Minutes
    • Question No. 9 15 Minutes
    • Question No. 10 6 Minutes
    • Question No. 11 4 Minutes
    • Question No. 12 11 Minutes
    2076 Chaitra
    • Question No. 1 11 Minutes
    • Question No. 2 11 Minutes
    • Question No. 3 14 Minutes
    • Question No. 4 11 Minutes
    • Question No. 5 11 Minutes
    • Question No. 6 15 Minutes
    • Question No. 7 13 Minutes
    • Question No. 8 13 Minutes
    • Question No. 9 13 Minutes
    • Question No. 10 7 Minutes
    • Question No. 11 4 Minutes
    • Question No. 12 6 Minutes
    Requirements
    • Students are required to have knowledge of Electromagnetics based on syllabus of IoE
    Description

    The videos herein are strictly based on syllabus of Institute of Engineering Tribhuwan University, Nepal promoting "e-Learning in Nepal" and are made with intention to provide guidance to the "Bachelor in Engineering(BE) appearing students", for securing good results. The course tries to cover all the basics of Vector Analysis and Coordinate System with solution of most frequently asked questions in final exam of BE with fundamental theories and numerical solutions. We strongly believe that, viewers will be benefited from these videos and the thrist of curiosity of viewers will be quenched! Feedbacks and suggestion to improve are always welcome and highly appreciated!

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