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Electromagnetic Theory: A Comprehensive Course - BaDshaH - 10-19-2024 Published 10/2024 MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz Language: English | Size: 48.53 GB | Duration: 25h 45m Vector and Coordinate system | Electrostatics | Capacitance | Magnetism | EM Wave | Transmission Line | Smith Chart What you'll learn Vector and Coordinate System Electrostatics Capacitor and Capacitance Magnetism Electromagnetic Wave Transmission line Smith Chart Requirements No Prior knowledge is needed Description This playlist includes videos regarding Electromagnetic Theory.Here Prof. Hitesh Dholakiya has covered all the topics of Electromagnetic Theory for the basics of the course and for Competitive Examinations like ISRO, GATE, BARC, and many more.Chapter-wise detailed Syllabus of the Electromagnetic Theory Course is as follows:Chapter-1 Vector and Coordinate System: Basics of Vector, Parameters of vector, Examples of Vector, Coordinate Systems, Magnitude and direction of vector, Dot and Cross multiplication of Vector, Resultant of vector, Law of a parallelogram, Law of polygon, Cartesian Coordinate System, Cylindrical Coordinate System, Spherical Coordinate System, Conversion of Coordinate System.Chapter-2 Electrostatics: Coulomb's Law, Electric Field, Electric Flux, Gauss's Law for Electric field, Electric Dipole, Electric Potential, Boundary Conditions of Electric fieldChapter-3 Capacitor and Capacitance: Parallel Plate Capacitors, Coaxial Capacitors, Spherical Capacitors, Examples of Capacitance, Continuity of Current, Poisson's and Laplace Equations, Uniqueness Theorem, and Image Theory of Charges.Chapter-4 Magnetism: Biot Savart Law, Ampere Circuit Law, Maxwells Equations, Magnetic Field, Gauss's Law for Magnetic field, Examples of Magnetic field, Vector Magnetic potential, Faraday's Law, Boundary conditions of Magnetic field, Induction and Inductance.Chapter-5 Electromagnetic Wave: EM wave propagation, Plane EM wave in medium, Skin Effects, Intrinsic Impedance, Loss tangent of medium, Pointing Theorem, Examples on EM wave propagation.Chapter-6 Transmission Line: Basics of Transmission Line, Parameters of Transmission Line, Types of Transmission Line, Examples of Transmission Line, Impedance matching of Transmission Line, Losses in Transmission Line, Transmission Line Parameters {Propagation constant, Phase constant, Attenuation constant, Characteristics Impedance, Reflection Coefficient, Transmission Coefficient, VSWR, Input Impedance, Line Impedance}.Chapter-7 Smith Chart:Basics of Smith Chart, Mathematics of Smith Chart, Examples of Smith Chart, Examples of smith chart using following parameters: VSWR, Reflection Coefficient, Load Impedance, Input Impedance, Line Impedance, Vmax and Vmin location, Admittance, Parallel stub Impedance matching, Series stub Impedance matching.Enroll now and take the first step toward mastering Electromagnetic Theory! Join Our Community of students who have transformed their careers with our expert-led course on Electromagnetic Theory! See you in the Electromagnetic Theory course! You're going to love it!Thank You. Overview Section 1: Electromagnetic Course Introduction Lecture 1 Course Introduction Lecture 2 How to access the course materials Section 2: Vector and Coordinate System Lecture 3 Fundamentals of Vector Lecture 4 Vector Multiplication Lecture 5 Cartesian system & Projection of Vector Lecture 6 Gradient, Divergence and Curl Lecture 7 Guess Divergence Theorem Lecture 8 Stock's Theorem Lecture 9 Example of Divergence Theorem Lecture 10 Example of Stokes Theorem Lecture 11 Cylindrical Coordinate System Lecture 12 Cartesian Vector to Cylindrical Vector Convers Lecture 13 Parameters of Cylindrical Coordinate System Lecture 14 Spherical Coordinate System Lecture 15 Parameters of Spherical Coordinate System Lecture 16 Cartesian to Spherical Vector Conversion Lecture 17 Examples of Coordinate Systems 1 Lecture 18 Examples of Coordinate Systems 2 Lecture 19 Examples of Coordinate Systems 3 Lecture 20 Examples of Coordinate Systems 4 Lecture 21 Examples of Coordinate Systems 5 Section 3: Electrostatics Lecture 22 Coulomb's Law Lecture 23 Coulomb's Law Examples 1 Lecture 24 Coulomb's Law Examples 2 Lecture 25 Examples of Electric Charge Lecture 26 Electric Field due to Point Charge 1 Lecture 27 Electric Field due to Point Charge 2 Lecture 28 Electric Field due to Point Charge 3 Lecture 29 Electric Field due to Point Charge 4 Lecture 30 Charge Density Lecture 31 Examples of Charge Density 1 Lecture 32 Examples of Charge Density 2 Lecture 33 Electric Field due to Line Charge Lecture 34 Examples of Electric Field due to Line Charge Lecture 35 Electric Field due to Surface Charge Lecture 36 Examples of Electric Field due to Surface Charge Lecture 37 Electric Field due to Uniformly Charged Ring Lecture 38 Electric Field due to Uniformly Charged Disc Lecture 39 Examples of Electric Field Lecture 40 Electric Flux Density Lecture 41 Electric Flux Lecture 42 Guass's Law for Electric Field Lecture 43 Applications of Guass's Law of Electric Field Lecture 44 Maxwell's 1st Equation Lecture 45 Examples of Gauss Law of Electric Field Lecture 46 Electric Field due to Conducting Sphere Lecture 47 Electric Dipole & Dipole Moment Lecture 48 Electric Field due to Dipole Lecture 49 Force and Torque on Dipole due Electric Field Lecture 50 Electric Potential Lecture 51 Maxwell's 3rd Equation for Non Time Varying Fi Lecture 52 Potential due to Electric Dipole Lecture 53 Examples of Electric Potential Lecture 54 Examples of Potential from Electric Field Lecture 55 Examples of Electric Potential & Electric Field Lecture 56 Examples of Electric Potential Lecture 57 Boundary Conditions for Electric Field Lecture 58 Example of Boundary Conditions for Electric Field 1 Lecture 59 Example of Boundary Conditions for Electric Field 2 Section 4: Capacitor and Capacitance Lecture 60 Parallel Plate Capacitor Lecture 61 Coaxial Cable Capacitor Lecture 62 Spherical Capacitor Lecture 63 Examples of Capacitors and Capacitance 1 Lecture 64 Examples of Capacitors and Capacitance 2 Lecture 65 Examples of Capacitors and Capacitance 3 Lecture 66 Examples of Capacitors and Capacitance 4 Lecture 67 Examples of Capacitors and Capacitance 5 Lecture 68 Continuity of Current Lecture 69 Poisson's & Laplace Equation Lecture 70 Uniqueness Theorem Lecture 71 Image Theory of Charges Lecture 72 Examples of Image Charge Lecture 73 Example of Electrostatic Field Section 5: Magnetism Lecture 74 Biot Savart Law Lecture 75 Ampere Circuit Law Lecture 76 Maxwell's 4th Equation Lecture 77 Magnetic Field & Magnetic Field Intensity Lecture 78 Examples of Magnetic Field Lecture 79 Examples of Magnetic Field Intensity 1 Lecture 80 Example of Magnetic Field Intensity 2 Lecture 81 Magnetic Flux Lecture 82 Gauss Law for Magnetic Field Lecture 83 Maxwell's 2nd Equation Lecture 84 Examples of Guass Law for Magnetic Field Lecture 85 Examples of Magnetic Vector Potential Lecture 86 Faraday's Law Lecture 87 Examples of Faraday's Law 1 Lecture 88 Examples of Faraday's Law 2 Lecture 89 Maxwell Equations Lecture 90 Solenoid Lecture 91 Toroid Lecture 92 Lorentz Force Equation Lecture 93 Magnetic Boundary Conditions Lecture 94 Example of Magnetic Boundary Conditions Lecture 95 Examples of Magnetic Force Lecture 96 Examples of Inductance Lecture 97 Magnetic Properties of Material Section 6: Electromagnetic Wave in Electromagnetics Lecture 98 EM Waves Lecture 99 Wave Equation of EM waves in free space Lecture 100 Alpha, Beta, and Gamma of EM Waves Lecture 101 Skin Effect Lecture 102 Intrinsic Wave Impedance Lecture 103 Loss Tangent of Medium Lecture 104 Poynting Theorem Lecture 105 Example of EM Waves 1 Lecture 106 Examples of EM Waves 2 Section 7: Transmission Line in Electromagnetics Lecture 107 Microwave Transmission Lines Lecture 108 Transmission Line Equations 1 Lecture 109 Transmission Line Equations 2 Lecture 110 Propagation Constant in Transmission Line Lecture 111 Characteristics Impedance Lecture 112 Reflection Coefficient Lecture 113 Input Impedance Lecture 114 VSWR, Maximum Impedance and Minimum Impedance Lecture 115 Transmittance Coefficient Lecture 116 Generation of Phase Delay in Transmission Line Lecture 117 Microwave Effects on Transmission Line Lecture 118 Limitations of Transmission Lines Lecture 119 Losses in Transmission Line Lecture 120 Impedance Matching using Single Stub Lecture 121 Transmission Line Examples of Impedance Matching Lecture 122 Example of Transmission Line Losses Lecture 123 Examples of Transmission Line 1 Lecture 124 Examples of Transmission Line 2 Lecture 125 Examples of Transmission Line 3 Section 8: Smith Chart in Electromagnetics Lecture 126 Methamatics of Smith Smith Lecture 127 Smith Chart Parameters 1 Lecture 128 Smith Chart Parameters 2 Lecture 129 Smith Chart Parameters 3 Lecture 130 Smith Chart Parameters 4 Lecture 131 Smith Chart Parameters 5 Lecture 132 Smith Chart Load Impedance 1 Lecture 133 Smith Chart Load Impedance 2 Lecture 134 Smith Chart Line Impedance Lecture 135 Smith Chart Parallel Stub 1 Lecture 136 Smith Chart Parallel Stub 2 Lecture 137 Smith Chart Series Stub Lecture 138 Smith Chart Parameters Lecture 139 Feedback Section 9: About our other Courses on Udemy Lecture 140 Courses on Udemy Students (Engineering, Diploma, Science),Engineering students specializing in electrical, electronic, or communication engineering,Professionals working in industries such as defense, aerospace, and telecommunications,Researchers and scientists interested in advancing their knowledge of Electromagnetism,Individuals seeking to transition into Electromagnetics or related fields,Anyone with a keen interest in understanding the principles and applications of Electromagneticsics,Government and Defense Employees,Students Preparing for Competitive Exams Homepage |