Complete Electric Circuits Course for Electrical Engineering
Learn the fundamentals of electric circuits from scratch with dozens of examples for electrical engineering students
Teaching & Academics,Electrical Circuits
Lectures -137
Duration -10 hours
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Course Description
Welcome To Our Course "Complete Electric Circuits Course For Electrical Engineering"
This course is designed for absolute beginners who have zero knowledge about electric circuits, I start from zero until you understand all the fundamentals with hundreds of examples !!
What are we going to learn from this course?
âœ”ï¸ Fundamentals of electric DC circuits
âœ”ï¸ SI units or international Units
âœ”ï¸ Definition of the electric charge
âœ”ï¸ Definition of the electric current
âœ”ï¸ Definition of the electric voltage
âœ”ï¸ Definition of the electric power
âœ”ï¸ Definition of the electric energy
âœ”ï¸ Difference between dependent and independent sources
âœ”ï¸ Applications of DC Circuits
âœ”ï¸ Know the principle of TV picture tube or CRT
âœ”ï¸ Know about the electricity bills calculations
âœ”ï¸ Basic laws of Electricity
âœ”ï¸ Understand Ohm's law
âœ”ï¸ Difference between an Open Circuit and Short Circuit
âœ”ï¸ Difference between Fixed and Variable Resistance
âœ”ï¸ Definition of Conductance
âœ”ï¸ Know difference between series and parallel connection
âœ”ï¸ Definition of the Nodes, Branches and loops in Electric circuit
âœ”ï¸ Definition of the Kirchhoff's laws
âœ”ï¸ Definition of Kirchhoff current law
âœ”ï¸ Definition of Kirchhoff voltage law
âœ”ï¸ Series resistor and voltage division
âœ”ï¸ Know parallel resistor and current division
âœ”ï¸ Wye-Delta transformations and vice-versa
âœ”ï¸ Understand Applications as Lightning Systems
âœ”ï¸ Understand Nodal analysis no voltage source
âœ”ï¸ Understand Nodal analysis with voltage sources
âœ”ï¸ Understand the supernode
âœ”ï¸ Understand Mesh analysis no current Source
âœ”ï¸ Understand Mesh analysis with current Sources
âœ”ï¸ Understand the supermesh.
âœ”ï¸ Compare between Nodal and Mesh analysis
âœ”ï¸ Understand applications as DC transistor circuits
âœ”ï¸ Understand the meaning of the linearity property
âœ”ï¸ Use the Superposition theorem
âœ”ï¸ Understand Thevenin's theorem
âœ”ï¸ Understand Norton's theorem
âœ”ï¸ Maximum power transfer
âœ”ï¸ Understand the source transformation
âœ”ï¸ Understand application as resistance measurement
âœ”ï¸ Understand the various types of operational amplifiers
âœ”ï¸ Understand ideal op amp, inverting amplifier , non inverting amplifier
âœ”ï¸ Understand summing op amp circuit
âœ”ï¸ Understand difference op amp circuit
âœ”ï¸ Understand cascaded op amp circuit
âœ”ï¸ Know the applications of op amp like Digital-to-Analog converter
âœ”ï¸ Know the applications of op amp like instrumentation amplifiers
âœ”ï¸ Know what is a capacitor
âœ”ï¸ Understand how to simplify series capacitors
âœ”ï¸ Understand how to simplify parallel capacitors
âœ”ï¸ Know what is an inductor
âœ”ï¸ Understand practical capacitors and practical inductors
âœ”ï¸ Understand how to simplify series inductors
âœ”ï¸ Understand how to simplify parallel inductors
âœ”ï¸ Know how to get energy stored in capacitor
âœ”ï¸ Know how to get energy stored in inductor
âœ”ï¸ know the applications of capacitors and inductor as integrator
âœ”ï¸ know the applications of capacitors and inductor as differentiator.
Goals
What will you learn in this course:
- Basic concepts of electricity as electric charge, current, voltage and more
- Basic elements and their equivalent circuits such as resistance, inductance and capacitor.
- Basic laws as KCL, KVL, Ohm's law and Delta-Wye transformations.
- Methods of analysis as nodal and mesh analysis.
- Circuit theorems as Norton, Thevenin, source transformation and maximum power transfer.
- Different operational amplifiers as inverting, non inverting, summing, etc.
Prerequisites
What are the prerequisites for this course?
- Internet Connection Only
- Desire for Knowledge
Curriculum
Check out the detailed breakdown of what’s inside the course
Basic Concepts
20 Lectures
- What Is An Electric Circuit ? 02:21 02:21
- System of Units 06:47 06:47
- Reference Book
- What Is An Electric Charge ? 05:10 05:10
- What Is An Electric Current ? 08:03 08:03
- Example 1 01:09 01:09
- Example 2 02:21 02:21
- Example 3 02:21 02:21
- What Is Voltage ? 07:21 07:21
- What Is Power ? 05:52 05:52
- What Is Energy ? 03:39 03:39
- Example 4 02:33 02:33
- Example 5 02:20 02:20
- Dependent and Independent Sources 07:21 07:21
- Example 6 Part 1 03:37 03:37
- Example 6 Part 2 01:22 01:22
- Application 1 Cathode Ray Tube 03:44 03:44
- Example 7 03:54 03:54
- Application 2 Electricity Bills 01:57 01:57
- Example 8 02:50 02:50
Basic Laws
27 Lectures
Methods of Analysis
15 Lectures
Circuit Theorems
21 Lectures
Operational Amplifiers
23 Lectures
Capacitors and Inductors
28 Lectures
First Order Circuits
2 Lectures
Instructor Details
Ahmed Mahdy
Electrical Power EngineerI am Ahmed Mahdy an electrical power engineer, researcher, and the founder of Khadija Academy. I am also an electrical bestselling instructor and have helped more than 70,000 students from 191 countries achieve career success with simple and easy courses in the last 7 years. In addition to having a YouTube educational engineering channel called" Khadija Academy", where I regularly post videos related to electrical engineering. In 2018, I was nominated among the top 10% of instructors on Udemy, besides currently ranking among the top instructors in the engineering sector of Udemy.
Some of my published research works in the top electrical engineering journals worldwide:
1- Transient stability improvement of wave energy conversion systems connected to power grid using anti-windup-coot optimization strategy - Energy Journal - Impact Factor of 9.0.
2- Nonlinear Modeling and Real-Time Simulation of a Grid-Connected AWS Wave Energy Conversion System - IEEE Transactions on Sustainable Energy - Impact Factor of 8.8.
3- Modeling and optimal operation of hybrid wave energy and PV system feeding supercharging stations based on golden jackal optimal control strategy - Energy Journal - Impact Factor of 9.0.
4- State-of-the-Art of the most commonly adopted wave energy conversion systems - Ain Shams Engineering Journal - Impact Factor of 6.0.
5- Optimal Design of Fractional-Order PID Controllers for a Nonlinear AWS Wave Energy Converter Using Hybrid Jellyfish Search and Particle Swarm Optimization - Fractal and Fractional - Impact Factor of 5.4
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