Build your engineering foundation by mastering the topic of Electromagnetic -Rahsoft Antenna Engineering Department

What you will learn

a great understanding of electromagnetic which is once of the core foundations of different disciplines of electrical engineering

Vector Algebra

Coordinate Systems and Transformation

Line Integrals

Partial Derivatives

Description

Build your engineering career foundation by mastering the topic of Electromagnetic and reach to the stars (literally!) Electromagnetic is the foundation needed to become an Electrical Engineer .Following this concentration as specialty of RF, Antenna and other related topics might have you end up in industries such as Aerospace, communication and beyond!

THIS COURSE IS CONSTANTLY UNDER DEVELOPMENT AND WE WOULD BE ADDING MORE VIDEOS EVERY OTHER MONTHS

Description

In RAHAE 101 we would be concentrating on Introduction to Electromagnetic Field Theory. This course will cover basics of electromagnetic waves, vector analysis. It includes coordinate systems and transformation from one coordinate system to another coordinate system. Number of numerical problems have been solved after each topic to understand the basics of the course. This course describes the Electrostatics and Magnetostatics, Waves and its Applications. It will cover Reflection, Refraction and Dispersion of Plane Waves. This course explained Transmission line and waveguides in depth of the basic with simple steps.

What is the target audience?

  • Prerequisite for students planning to get Rahsoft RF Certificate for RAHAE 101 course which is a complete package of Introduction to Electromagnetic Field Theory.
  • This course is set for professionals working in the area of antenna field.
  • Under graduate students
  • Antenna Engineer
  • Post graduate students taking Electromagnetic Field Theory course
  • Research scholars in antenna field

Instructor

This course is taught by Dr Akhilesh Verma . Dr Verma has a Ph.D in Antenna Engineering with concentration on Beamforming , Phased Array Antenna and 5G.

The course advisor for this course is Ahsan Ghoncheh. Ahsan has over 10 years of RF and Antenna experience in Consumer Electronics, Aviation and Aerospace. His designs and projects can be found as small parts of mid stages of iPhone, Smart TV remote controls to Servers currently being used in the latest state of the art Commercial Airline and Front end module communication systems.

Course content

Chapter1: Introduction

  • Overview of Electromagnetic waves
  • Generation of Electromagnetic waves
  • Electric and Magnetic waves
  • Receiving Electromagnetic waves behavior

Chapter2: Vector Algebra

  • Vector basics and its type
  • Vector addition and subtraction
  • Distance vector and numerical practice
  • Numerical practice
  • Quiz
  • Quiz Solution
  • Vector Multiplication
  • Cross Product
  • Scalar Triple Product
  • Vector Triple Product
  • Numerical practice on vector multiplication
  • Multiple Choice Questions

Chapter3: Coordinate Systems and Transformation

  • Introduction
  • Rectangular coordinate system
  • Cylindrical Coordinate System
  • Range of Cylindrical Coordinate and about unit vector
  • Relationship between cartesian and cylindrical coordinate
  • Relationship between cartesian and cylindrical coordinate
  • Relationship between cartesian and cylindrical vectors
  • Spherical coordinate system
  • Spherical coordinate unit vector and vector representation
  • Transformation of coordinate from one to another
  • Transformation between cartesian and cylindrical coordinate system
  • Transformation of vectors from cartesian to cylindrical
  • Expression of cartesian to cylindrical coordinate
  • Transformation of vectors from cylindrical to cartesian
  • Transformation between cartesian and spherical coordinate system
  • Transformation of a vector from cartesian to spherical coordinates
  • Transformation of a vector from spherical to cartesian coordinates
  • Numericals on coordinate system and transformation
  • Query
  • Differential length, area and volume
  • Differential area and volume
  • Cylindrical Coordinate System Differential length, area and volume
  • Spherical Coordinate System Differential length, area and volume
  • Solved problem on differential length, volume and area

Chapter4: Line Integrals

  • Surface Integrals
  • Volume Integrals
  • Problems on Line, Surface, Volume Integrals

Chapter5: Partial Derivatives

  • Gradient of a scalar
  • Gradient of V in different coordinate systems
  • Physical significance of gradient
  • Divergence
  • Divergence of a vector in a different coordinate systems
  • Curl and its physical significance
  • Curl derivation
  • Solved problems on gradient

English

Language

Content

Introduction

Before We start

Overview about electromagnetics

Generation of electromagnetic waves

Electric and magnetic field

Receiving Electromagnetic Waves Behavior

Vector Algebra

Vector basics and its type

Vector addition and subtraction

Distance vector and numerical practice

Numerical practice

Numerical practice

Quiz

Quiz Solution

Quiz Solution

Quiz Solution

Vector Multiplication

Cross Product

Scalar Triple Product

Vector Triple Product

Numerical practice on vector multiplication

Numerical 5

Numerical 5 continue

Numerical6 and Quiz discussion

Quiz Solution

Multiple Choice Questions

Coordinate Systems and Transformation

Introduction

Rectangular coordinate system

Cylindrical Coordinate System

Range of Cylindrical Coordinate and about unit vector

Relationship between cartesian and cylindrical coordinate

Relationship between cartesian and cylindrical coordinate

Relationship between cartesian and cylindrical vectors

Spherical coordinate system

Spherical coordinate system cont…

Spherical coordinate unit vector and vector representation

Transformation of coordinate from one to another

Transformation between cartesian and cylindrical coordinate system


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Transformation between cartesian and cylindrical coordinate system continue

Transformation of vectors from cartesian to cylindrical

Transformation of vectors from cartesian to cylindrical continue

Expression of cartesian to cylindrical coordinate

Transformation of vectors from cylindrical to cartesian

Transformation between cartesian and spherical coordinate system

Transformation of a vector from cartesian to spherical coordinates

Transformation of a vector from spherical to cartesian coordinates

Transformation of a vector from spherical to cartesian coordinates continue

Numerical on coordinate system and transformation

Numerical 3 and 4

Numerical 5 and 6

Numerical 6 and 7

Numerical 8 and 9

Numerical 9 continue

Numerical 10

Numerical 11

Numerical 11 continue

Numerical 12

Numerical 12 continue

Numerical 13

Numerical 13 continue

Numerical 14

Query

Solution of Queries 1 and 2

Solution of Queries 3 and 4

Solution of Queries 5,6,7

Solution of Queries 8,9

Solution of Queries 10, 11

Differential length, area and volume

Differential area and volume

Cylindrical Coordinate System Differential length, area and volume

Spherical Coordinate System Differential length, area and volume

Solved problem on differential length, volume and area

Line Integrals

Line Integrals

Surface Integrals

Volume Integrals

Problems on Line, Surface, Volume Integrals

Solved problem 2

Solved problem 3

Solved problem 4

Solved problem 5

Solved problem 6

Solved problem 7 and 8

Partial Derivatives

Partial Derivatives

Gradient of a scalar

Gradient of V in different coordinate systems

Physical significance of gradient

Divergence

Divergence continue

Divergence of a vector in a different coordinate systems

Curl

Curl and its physical significance

Curl derivation

Curl physical significance

Solved problems on gradient

Solved example 3