Complete Electric Circuits Course for Electrical Engineering
Created by Ahmed Mahdy, Last Updated 31-Oct-2020, Language:English
Complete Electric Circuits Course for Electrical Engineering
Learn the fundamentals of electric circuits from scratch with dozens of examples for electrical engineering students
Created by Ahmed Mahdy, Last Updated 31-Oct-2020, Language:English
What Will I Get ?
- 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.
Requirements
- Internet Connection Only
- Desire for Knowledge
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?
✔️ Fundamentals of electric DC circuits
✔️ SI units or international Units
✔️ Definition of the electric charge
✔️ Definition of the electric current
✔️ Definition of the electric voltage
✔️ Definition of the electric power
✔️ Definition of the electric energy
✔️ Difference between dependent and independent sources
✔️ Applications of DC Circuits
✔️ Know the principle of TV picture tube or CRT
✔️ Know about the electricity bills calculations
✔️ Basic laws of Electricity
✔️ Understand Ohm's law
✔️ Difference between an Open Circuit and Short Circuit
✔️ Difference between Fixed and Variable Resistance
✔️ Definition of Conductance
✔️ Know difference between series and parallel connection
✔️ Definition of the Nodes, Branches and loops in Electric circuit
✔️ Definition of the Kirchhoff's laws
✔️ Definition of Kirchhoff current law
✔️ Definition of Kirchhoff voltage law
✔️ Series resistor and voltage division
✔️ Know parallel resistor and current division
✔️ Wye-Delta transformations and vice-versa
✔️ Understand Applications as Lightning Systems
✔️ Understand Nodal analysis no voltage source
✔️ Understand Nodal analysis with voltage sources
✔️ Understand the supernode
✔️ Understand Mesh analysis no current Source
✔️ Understand Mesh analysis with current Sources
✔️ Understand the supermesh.
✔️ Compare between Nodal and Mesh analysis
✔️ Understand applications as DC transistor circuits
✔️ Understand the meaning of the linearity property
✔️ Use the Superposition theorem
✔️ Understand Thevenin's theorem
✔️ Understand Norton's theorem
✔️ Maximum power transfer
✔️ Understand the source transformation
✔️ Understand application as resistance measurement
✔️ Understand the various types of operational amplifiers
✔️ Understand ideal op amp, inverting amplifier , non inverting amplifier
✔️ Understand summing op amp circuit
✔️ Understand difference op amp circuit
✔️ Understand cascaded op amp circuit
✔️ Know the applications of op amp like Digital-to-Analog converter
✔️ Know the applications of op amp like instrumentation amplifiers
✔️ Know what is a capacitor
✔️ Understand how to simplify series capacitors
✔️ Understand how to simplify parallel capacitors
✔️ Know what is an inductor
✔️ Understand practical capacitors and practical inductors
✔️ Understand how to simplify series inductors
✔️ Understand how to simplify parallel inductors
✔️ Know how to get energy stored in capacitor
✔️ Know how to get energy stored in inductor
✔️ know the applications of capacitors and inductor as integrator
✔️ know the applications of capacitors and inductor as differentiator.
Course Content
-
Basic Concepts
20 Lectures 01:14:42-
What Is An Electric Circuit ?
Preview00:02:21 -
System of Units
Preview00:06:47 -
Reference Book
-
What Is An Electric Charge ?
00:05:10 -
What Is An Electric Current ?
00:08:03 -
Example 1
00:01:09 -
Example 2
00:02:21 -
Example 3
00:02:21 -
What Is Voltage ?
00:07:21 -
What Is Power ?
00:05:52 -
What Is Energy ?
00:03:39 -
Example 4
00:02:33 -
Example 5
00:02:20 -
Dependent and Independent Sources
00:07:21 -
Example 6 Part 1
00:03:37 -
Example 6 Part 2
00:01:22 -
Application 1 Cathode Ray Tube
00:03:44 -
Example 7
00:03:54 -
Application 2 Electricity Bills
00:01:57 -
Example 8
00:02:50
-
-
Basic Laws
27 Lectures 02:16:16-
Introduction To Basic Laws
00:01:28 -
Definition Of Resistance
00:06:29 -
Ohm's Law
00:02:04 -
Types Of Resistances
00:05:45 -
Open And Short Circuit
00:05:02 -
Definition Of Conductance
00:04:03 -
Example 1
00:01:34 -
Example 2
00:03:04 -
Branch, Node And Loops
00:07:08 -
Series And Parallel Connection
00:03:44 -
KCL
00:03:39 -
KVL
00:03:17 -
Example 4
00:04:47 -
Example 5
00:02:09 -
Example 6
00:05:32 -
Series Resistors And Voltage Division
00:06:53 -
Parallel Resistors And Current Division
00:11:49 -
Analogy Between Resistance And Conductance
00:06:39 -
Example 7
00:03:23 -
Example 8
00:03:54 -
Introduction To Delta-Wye Transformation
00:05:22 -
Delta To Wye Transformation
00:05:22 -
Wye To Delta Transformation
00:06:50 -
Example 9
00:02:42 -
Example 10
00:14:55 -
Application Lighting Bulbs
00:03:28 -
Example 11
00:05:14
-
-
Methods of Analysis
15 Lectures 01:37:53-
Introduction To Methods Of Analysis
00:01:41 -
Nodal Analysis With No Voltage Source
00:14:31 -
Example 1
00:05:43 -
Cramer's Method
00:04:05 -
Nodal Analysis With Voltage Source
00:06:35 -
Example 2
00:05:27 -
Example 3
00:12:35 -
Mesh Analysis With No Current Source
00:10:19 -
Example 4
00:03:41 -
Example 5
00:06:05 -
Mesh Analysis With Current Source
00:06:47 -
Example 6
00:07:43 -
Nodal Vs Mesh Analysis
00:04:22 -
Application DC Transistor
00:04:26 -
Example 7
00:03:53
-
-
Circuit Theorems
21 Lectures 01:42:42-
Introduction to Circuit Theorems
00:02:02 -
Linearity of Circuit
00:07:25 -
Example 1
00:03:49 -
Superposition Theorem
00:07:02 -
Example 2
00:04:20 -
Example 3
00:05:56 -
Source Transformation
00:07:37 -
Example 4
00:05:05 -
Example 5
00:03:03 -
Thevenin Theorem
00:09:44 -
Example 6
00:06:04 -
Example 7
00:04:57 -
Norton's Theorem
00:05:19 -
Example 8
00:03:29 -
Example 9
00:05:00 -
Maximum Power Transfer
00:04:51 -
Example 10
00:02:57 -
Resistance Measurement
00:04:56 -
Example 11
00:00:26 -
Example 12
00:03:57 -
Summary
00:04:43
-
-
Operational Amplifiers
23 Lectures 01:56:04-
Introduction to Operational Amplifiers
00:03:28 -
Construction of Operational Amplifiers
00:07:09 -
Equivalent Circuit of non Ideal Op Amp
00:09:42 -
Vo Vs Vd Relation Curve
00:03:30 -
Example 1
00:09:16 -
Ideal Op Amp
00:07:05 -
Example 2
00:04:15 -
Inverting Amplifier
00:05:23 -
Example 3
00:01:51 -
Example 4
00:02:01 -
Non Inverting Amplifier
00:07:58 -
Example 5
00:03:17 -
Summing Amplifier
00:04:40 -
Example 6
00:02:17 -
Difference amplifier
00:05:34 -
Example 7
00:07:33 -
Cascaded Op Amp Circuits
00:06:27 -
Example 8
00:04:10 -
Application Digital to Analog Converter
00:05:40 -
Example 9
00:03:54 -
Instrumentation Amplifiers
00:05:26 -
Example 10
00:01:00 -
Summary
00:04:28
-
-
Capacitors and Inductors
28 Lectures 01:33:34-
Introduction to Capacitors and Inductors
00:02:27 -
Capacitor
00:06:28 -
Capacitance
00:02:24 -
Voltage-Current Relation in Capacitor
00:03:17 -
Energy Stored in Capacitor
00:06:20 -
DC Voltage and Practical capacitor
00:01:55 -
Example 1
00:00:42 -
Example 2
00:01:06 -
Example 3
00:04:51 -
Equivalent Capacitance of Parallel capacitors
00:02:26 -
Equivalent Capacitance of Series capacitors
00:02:58 -
Example 4
00:01:55 -
Definition of Inductors
00:05:52 -
Definition of Inductance
00:03:01 -
Voltage-Current Relation in Inductor
00:03:00 -
Power and Energy stored in Inductor
00:02:24 -
DC Source and Inductor
00:03:45 -
Example 5
00:02:06 -
Series Inductors
00:03:11 -
Parallel Inductors
00:03:33 -
Small Summary to 3 Basic Elements
00:02:24 -
Example 6
00:01:10 -
Example 7
00:04:48 -
Application Integrator
00:04:47 -
Example 8
00:03:24 -
Application Differentiator
00:02:26 -
Example 9
00:06:03 -
Summary
00:04:51
-
-
First Order Circuits
0 Lectures

Ahmed Mahdy
Electrical Power Engineer
I am Ahmed Mahdy an electrical power engineer, I am also an online instructor at more than 4 platforms.
I am also the founder of the "Khadija Academy" website for electrical engineering courses.
I have a YouTube educational engineering channel called" Khadija Academy", I regularly post videos related to electrical engineering.
I am also an author on Amazon Kindle having 6 books about electrical engineering.
In 2018 Udemy awarded me of being from the top 10% most engaging instructors.
I also created Khadija Academy in 2019, my mission is "Learn the fundamentals of electrical engineering branches from absolute beginner to advanced level."
In every one of my courses, 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.
My courses can be watched 24/7 wherever you are.