Starting a new Lecture Notes Series on Electro Magnetics Theory
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Electro Magnetics Theory By Lecture Notes together!
Lecture 1: Addition of Vectors
Lecture 2: Cross Product
Lecture 3: Properties of Vector
Lecture 4: Scalar Triple Product
Lecture 5: Scalar Triple Product
Lecture 6: Vector Equality
Lecture 7: Vector Field
Lecture 8: Vector Product
Lecture 9: Continuity of Current
Lecture 10: Curl
Lecture 11: Curl Example
Lecture 12: Divergence
Lecture 13: Divergence Example
Lecture 14: Dot Product
Lecture 15: Dot Product Examples
Lecture 16: Gradient
Lecture 17: Right Hand Rule
Lecture 18: Gauss Law
Lecture 19: Application of Gauss Law
Lecture 20: Coulomb's Law
Lecture 21: Electric Field
Lecture 22: Electric Flux Density
Lecture 23: Gauss Divergence Theorem
Lecture 24: Potential
Lecture 25: Application of Gauss Law
Lecture 26: Coulomb's Law
Lecture 27: Electric Field
Lecture 28: Intrinsic Impadence
Lecture 29: Loss Tangent
Lecture 30: Wave Equation
Lecture 31: Poynting Theorem Part 1
Lecture 32: Poynting Theorem Part 2
Lecture 33: Poynting Theorem Unit
Lecture 34: Poynting Theorem Example - Part 1
Lecture 35: Poynting Theorem Example - Part 2
Lecture 36: Poynting Theorem Example 1
Lecture 37: Poynting Theorem Example 2
Lecture 38: Average Power Plane Waves Example
Lecture 39: Electric Field Boundary Condition
Lecture 40: Boundary Condition
Lecture 41: Boundary condition Example
Lecture 42: Reflection of Plane Wave At Normal Incidence
Lecture 43: Transmissed Power Plane Wave Numberical Example
Lecture 44: Numerical on Plane Waves
Lecture 45: Polarization
Lecture 46: Numerical on Polarization
Lecture 47: Circular Polarization Numerical Example
Lecture 48: Introduction to Transmission Line
Lecture 49: Transit Time in Transmission Line
Lecture 50: Transit Time Effect in Transmission Line
Lecture 51: Primary Constants of Transmission Line
Lecture 52: Transmission Line Equation Part 1
Lecture 53: Transmission Line Equation Part 2
Lecture 54: Characteristic of Impedance
Lecture 55: Different Type of Transmission Line Loss Less
Lecture 56: Different Type of Transmission Line Low
Lecture 57: Different Type of Transmission Line Low Loss
Lecture 58: Reflection Coefficient
Lecture 59: Input Impedance of Transmission Lines
Lecture 60: Input Impedance of Open Circuit
Lecture 61: Input Impedance of Short Circuit
Lecture 63: Distortion Less Transmission Line
Lecture 64: Electro Magnetics - Power in Transmission Line
Lecture 66: Transmission Line Numerical Example 1
Lecture 67: Transmission Line Numerical Example 2
Lecture 70: Input Impedance Transmission Line Example
Lecture 72: Electro Magnetics - Voltage Standing Wave Ratio
Lecture 73: Range of Reflection Coefficient and VSWR
Lecture 74: Electro Magnetics - Introduction to Smith Chart
Lecture 75: Electro Magnetics - Numerical on Smith Chart
Lecture 76: Electro Magnetics Theory - Impedance Matching
Lecture 77: Electro Magnetics Theory - Single Stub Matching
Lecture 79: Electro Magnetics Theory - Biot Savart's Law
Lecture 80: Electro Magnetics Theory - Stroke's Theorem
Lecture 82: Electro Magnetics - Maxwell's 2nd Equation
Lecture 83: Electro Magnetics - Maxwell's 3rd Equation
Lecture 85: Maxwell's 4th Equation
Lecture 86: Rectangular Cartesian Coordinate System
Lecture 88: Electro Magnetics - Spherical Coordinate System
Lecture 89: Electro Magnetics - Introduction to Wave Guide
Lecture 90: Electro Magnetics - Parallel Plane Wave Guide
Lecture 91: Transverse Magnetic Mode Rectangular Wave Guide
Lecture 92: Transverse Electric Mode Rectangular Wave Guide
Lecture 93: Cut Off Frequency of Wave Guide
Lecture 96: Electro Magnetics - Introduction to Antenna
Lecture 97: Radiation Characteristic of Antenna
Lecture 98: Electro Magnetics - Hertzian Dipole Antenna
Lecture 99: Electro Magnetics - Numerical on Hertz Dipole
Lecture 100: Hertzian Dipole Antenna Numerical Example