Applied Electromagnetics for Engineers

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Applied Electromagnetics for Engineers

Engineering Academy

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Duration 806 Min

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Language English

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Why enroll

People join this course to understand electromagnetics in a practical and application-oriented way, instead of learning only theory. It helps them learn how high-speed PCB design works and how to handle signal integrity issues in real circuits. The course builds strong fundamentals needed for RF, microwave, and antenna engineering, while also showing how mathematics and programming are used to solve real engineering problems. Overall, it prepares learners for advanced roles in electronics, communication systems, and research by connecting concepts directly to real-world engineering applications.

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Course content

The course is readily available, allowing learners to start and complete it at their own pace.

Applied Electromagnetics for Engineers

30 Lectures

806 min

Introduction to Applied Electromagnetics
Preview
22 min
Introduction to Transmission lines
31 min
Sinusoidal waves on Transmission lines
28 min
Terminating T-lines: Reflection and Transmission coefficient
29 min
Circuit parameters of a T-line
34 min
Lossy Transmission lines and primary constants
18 min
When to apply T-line Theory?
29 min
Standing Waves on T-lines
27 min
Lumped equivalent circuits of T-lines
29 min
Impedance transformation and power flow on T-lines
25 min
Graphical aid: Smith Chart Derivation
29 min
Smith chart applications
28 min
Further applications of Smith chart-Part 1
32 min
Further applications of Smith chart-Part 2
22 min
Impedance matching techniques: Part 1
29 min
Impedance matching techniques: Part 2
26 min
Impedance matching techniques: Part 3
15 min
T-lines in time domain: Lattice diagrams
31 min
Further examples of use of lattice diagrams
29 min
High-speed digital signal propagation on T-lines
27 min
Transient analysis with reactive termination and Time-domain reflectometry
28 min
Fault detection using TDR
28 min
Why Electromagnetics?
28 min
Rectangular coordinate systems
20 min
Cylindrical coordinate systems
47 min
Review of vector fields and Gradient
28 min
Divergence, Curl, and Laplacian operations
29 min
Towards Maxwell's equations-Part 1
27 min
Towards Maxwell's equations-Part 2
21 min
Faraday's law
10 min

Course details

Applied Electromagnetics for Engineers focuses on practical use of electromagnetics, while still explaining the important theory clearly.The course starts with transmission lines, which are very important for high-speed circuits, PCB design, and signal integrity.
It then briefly reviews the basic math tools needed, like coordinate systems, vectors, and fields.You’ll learn how to solve electric field problems using Laplace’s and Poisson’s equations, understand capacitors, inductance, skin effect, and finally the Maxwell’s equations that connect everything.The course also explains how electromagnetic waves travel through free space, special materials, and periodic structures.It covers waveguides, optical fibers, and antennas, with real examples.Overall, the course keeps a good balance between theory, coding, and real engineering applications, supported by case studies

Source: Applied Electromagnetics For Engineers [YouTube Channel] NPTEL

Course suitable for

Automotive
Electrical
Engineering & Design
Project Management
Research & Developmnet

Key topics covered

Introduction to applied electromagnetics and its importance
Basics of transmission lines and wave behavior
Reflection, transmission, and standing waves on lines
Lossy transmission lines and equivalent circuits
Impedance transformation and power flow concepts
Smith chart basics and impedance matching methods
Time-domain analysis and signal propagation
High-speed signaling and TDR fundamentals
Review of coordinate systems and vector math
Vector fields, gradient, divergence, and curl
Understanding Maxwell’s equations step by step
Boundary conditions for electromagnetic fields
Laplace and Poisson equations basics
Analytical and numerical field solutions
Magnetostatics and magnetic field calculations

Why people choose EveryEng

Industry-aligned courses, expert training, hands-on learning, recognized certifications, and job opportunities—all in a flexible and supportive environment.

Industry Veteran
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Servilink Systems

EveryEng offers a fantastic learning experience with a great selection of courses and expert mentors. The platform is user-friendly, and the knowledge gained is highly practical. It's been a great journey so far!

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Project Management

Baroda, India

SLB

I never imagined an online learning platform could be this effective! EveryEng’s courses are top-notch, the mentors are industry experts, and the skills my team gained have made a real difference in the performance!"

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Engineering Team Lead

Pune, India

Electric Hydrogen

EveryEng is more than just a training platform - it's a career catalyst! Their expert instructors, real-world projects, and job assistance helped engineers transition into a successful engineering professional.

Nirdesh Patel

Director of Engineering

Austin, USA

Heelium

EveryEng is my go-to platform for engineering education. The courses are easy to follow, and the instructors are very knowledgeable. The platform has helped my team gain confidence and expertise in our field.

Siddharth Jain

Co-Founder

Pune, India

Lockwood

The real-world projects gave my team the hands-on experience they needed to stand out to our clients! A special thanks to EveryEng team.

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Senior Project Manager

Dallas, USA

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