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
- 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
- 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
About me
I am Ahmed Mahdy an electrical power engineer, researcher, and the founder of Khadija Academy. I am also an electrical bestselling instructor at more than 30 platforms, teaching electrical engineering. I have helped over 80,000 students from 196 countries achieve career success with simple and easy courses in the last 8 years. In addition, I have 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 Tutorialspoint, besides currently ranking among the top instructors in the engineering sector of Tutorialspoin.
I have received the award for the best master's thesis in the Faculty of Engineering - Ain Shams University for 2022/2023.
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
6- Dynamic performance enhancement of nonlinear AWS wave energy systems based on optimal super-twisting control strategy - Ain Shams Engineering Journal - Impact Factor of 6.0.
In every one of my Tutorialspoincourses, you'll see that I am always available and always offer you support through each course. I will join your success and help you through any obstacles.
You'll notice that my courses get many 5-star ratings & reviews and my student satisfaction ratings also reflect this.
In the many positive course reviews, my courses get, most people like the Way I explain everything and the encouraging teaching style that I convey as well as how I get right to the point and walk you, step-by-step through Complex Ideas.
(You'll find my courses below this bio - and all of my courses have at least 10 minutes of free previews available to you, so you can quickly determine the courses that are right for you)
My courses can be watched 24/7 wherever you are.
You can also view them on mobile devices with the Tutorialspoinmobile app.
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