MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 434.33 MB | Duration: 2h 43m
Unleash the Power of Electromagnetic Waves and Master the Fundamentals of EMFT!
What you’ll learn
Understanding electrostatics and magnetostatics
Exploring Maxwell’s equations and electromagnetic waves
Analyzing the behavior of electric and magnetic fields
Applying electromagnetic theory to practical engineering problems
Solving problems related to electric charges and currents
This course is open to everyone, even if you don’t have any previous experience. It’s crafted for undergraduates to build a strong foundation and for postgraduates to review important concepts.
The Crash Course on Electromagnetic Field Theory (EMFT) is designed for students and professionals seeking a rapid and comprehensive understanding of the fundamental concepts and principles behind electromagnetic fields. In this course, you will dive into the core principles of EMFT, exploring the relationship between electricity and magnetism, as well as the behavior of electromagnetic waves. You will learn about Maxwell’s equations, which form the foundation of EMFT, and how they describe the interaction between electric and magnetic fields. Through a combination of concise lectures and practical examples, this crash course will cover key topics such as electric and magnetic fields, electromagnetic induction, electromagnetic waves, and the behavior of different materials in the presence of electromagnetic fields. You will gain a deep understanding of various properties of EMFT, including how electric charges create electric fields, magnetic fields induce electric currents, and how the combined interaction results in the propagation of electromagnetic waves. Additionally, you will explore applications of EMFT in various fields, from electrical engineering to telecommunications and beyond. By the end of this crash course, you will have a solid foundation in electromagnetic field theory, enabling you to understand and analyze complex electromagnetic phenomena effectively. Whether you are a student pursuing a degree in engineering or a professional seeking to enhance your knowledge, this course will provide you with the essential tools to excel in the fascinating world of EMFT.
Section 1: EMFT Lectures
Lecture 1 Introduction to Electromagnetic Fields
Lecture 2 Electric Fields
Lecture 3 Poisson–Laplace equation
Lecture 4 Magnetostatics
Lecture 5 Self & Mutual -Inductance
Lecture 6 Electric field polarization
Lecture 7 Maxwell’s equations
Lecture 8 Wave equations
Lecture 9 Poynting Theorem
Lecture 10 Fresnel’s Laws
Lecture 11 Interference
Lecture 12 Coaxial Lines
Lecture 13 Transmission lines
Lecture 14 Waveguides
Lecture 15 Antenna
Lecture 16 Dipole Antenna
Section 2: Practice Test
This course is designed for individuals seeking to enhance their understanding of innovation, regardless of background or profession. All curious minds eager to explore and contribute are welcome.