Why this course?
Description:
This course is designed to have detail understanding about magnet, electromagnet & electricity. This is very essential course for electrical engineering students. Proper understanding of magnet and electromagnetism will help for further understanding working of major elector-mechanical devices. Course contents includes part of syllabus of first year basic engineering course offers in almost all universities like GTU, IITs, RTU, as "Basic Electrical Engineering" or "Element of Electrical Engineering" or under similar title.
Magnetic flux plays an important role in energy conversion process either form electrical to mechanical or mechanical to electrical. It is very important to have clear understanding of electromagnetism and its role in various applications. Without clear understanding about electromagnetism, it is not possible understand electric motor, generators, wireless power transfer, wireless chargers, or induction heating like advanced applications. So iif someone is struggling in basic concept of electrical engineering it is advised to go through this course.
This course will be updated continuously for new applications, tutorials and quiz.
Course Summary
Who this course is for:
This course is most suitable for 1st year engineering students of all branch
This is most important course for electrical engineering students.
All enthusiastic students want to understand electromagnetism and its applications
What you'll learn
Basic about magnet and magnetism
Electromagnet
Faraday's Law's of electromagnetic induction and its importance
Lenz's law and its importance
Magnetic Circuit
Induced emf and inductor
Magnetic Losses
Magnetic forces
Generation of AC
Tutorials & Practice
Requirements
Basic science (primary school level)
Course Curriculum
Ch. 1: Introduction to Magnet & Electromagnet
1.1: Importance of Magnet & Magnetism
1.2: Magnet
1.3: Electromagnet
Ch 2: Magnetic Circuit
2.1: Parameters of Magnetic Circuit
2.2: Tutorial 1: Basic Magnetic Circuit
2.3: Series-Parallel Magnetic Circuit
2.4: Tutorial 2: Series Paralel Magnetic Circuit
2.5: Comparison of Magnetic Circuits & Electric Circuits
2.6: Magnetization Curve (Core Saturation)
2.7: Hysteresis Loop
Ch 3: Induced EMF & Inductor
3.1: Induced EMF & Faraday's Laws
3.2: Energy Conversion
3.3: Lenz's Law
3.4: Statically Induced EMF & Inductor
3.5: Expression of Self-Inductance
3.6: Energy Stored in Inductor
3.7: Inductor in DC Circuit
3.8: Rise of Inductive Current
3.9: Mathematical Expression for Rise in Inductive Current
3.10: Voltage Across Indutor
3.11: Decay in Inductive Current
3.12: Tutorial 3- Inductor in DC Circuit
3.13: Mutually Induced EMF
3.14: Series-Parallel Inductors
Ch 4: Magnetic Losses
4.1: Hysteresis Losses
4.2: Eddy Current Losses
Ch 5: Molecules Science & Theories of Magnetism
5.1: Molecules Science & Theories of Magnetism
Ch 6: Magnetic Forces
6.1: Force on Current Carrying Conductor
Ch 7: Generation of AC
7.1: Magnitude of Induced Emf
7.2: Direction of Induced Emf
7.3: Coil Rotating in Magnetic Field
7.4: Frequency of Induced AC
7.5: Practical AC Generator
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Course Preview
Course Instructor
Ph.d, IIT Roorkee
In 2013, Dr. Jignesh Makwana earned a Ph.D. in Electrical Engineering from the Indian Institute of Technology Roorkee. Since the previous 15 years, he has been teaching power electronics, electric drives, control systems, and other subjects in engineering colleges. From 2013 until 2017, he was an associate professor and the head of the Electrical Engineering Department at Marwadi University in Rajkot. He currently works as a product design and development consultant for a number of firms in the fields of electric drives and power electronics. He also assists numerous reputable universities in developing engineering curricula and syllabuses as a BOS member.
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"So far I'm Loving and Learning this course. This gentleman does a great job of Simplifying concepts."
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