Learn the main concepts of electricity and become fluent with circuits in this electric circuit masterclass. Read more.
I am Ahmed Mahdy an electrical power engineer, researcher, and the founder of Khadija Academy. I am also an electrical bestselling instructor teaching electrical power engineering. I have helped over 80,000 students from 198 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. I have received the award for the be
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Who this course is for:
- Anyone who wants knowledge about electric circuits
- Anyone interested to know the main concepts of electric circuits
What you’ll learn:
- Basics concepts and laws of electric circuits
- Methods of analysis
- Circuit theorems and circuits
- Capacitors and inductors
- Electric circuit simulations using MATLAB
Requirements:
- No prior knowledge of electric circuits
- Simple mathematics knowledge
This is the only course with everything you need to know about the basics of electric circuits for beginners. This electric circuit masterclass starts with the basic concepts of electricity to the level you will be very familiar with circuits.
Throughout the course, you will learn:
Basics concepts of electric circuits: This will help you understand the basic definitions of electricity, including voltage, current, power, and more.
Basic laws of electric circuits: This part will teach you about the branches, nodes, KVL, KCL, Ohm’s law, and Delta-Wye transformations.
Methods of analysis: You will learn how to analyze electric circuits using nodal and mesh analysis.
Circuit theorems: In this part, you will learn more advanced circuit analysis techniques such as the superposition theorem, source transformation theorem, Thevenin theorem, Norton theorem, and maximum power transfer.
Operational amplifiers: An introduction to operational amplifiers, including inverting, non-inverting, summing, difference, and cascaded amplifiers; these amplifiers are helpful in inverting or amplification or adding or subtracting different input signals.
Capacitors and inductors: These components are essential in the electrical system and other applications. You will find inductors as a representation of electrical machines and capacitors that can be used in power factor correction.
First-order circuits: These circuits are composed of resistors and inductors or resistors and capacitors. We will understand how to analyze them in the free and forced responses.
Basics of AC circuits: AC power or alternating power is what we have in our homes. We will learn about them and the difference between them and AC circuits.
Analysis of AC circuits: In this part, we will start analyzing our AC circuits with the different theorems discussed at the beginning of the course.
Resonant circuits: In this part, we will discuss both series and parallel resonant circuits; these circuits have a crucial effect on electric circuits and have practical applications.
Electric circuit simulations using MATLAB: We will learn the simulation of many electric circuits in the well-known simulation program MATLAB Simulink. This will be a fun part to increase your knowledge about electric circuits.
All of these topics are in step-by-step lessons with many solved examples.
Bonus Gift:
- 458 Pages of Electric Circuits Course Slides
- 95 Pages of Electrical Resonance Course Slides
Take this Electric Circuits Masterclass for in-depth insight into the basics of electric circuits.
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Our Promise to You
By the end of this course, you will have learned the basic concepts of electricity and circuits.
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Course Curriculum
Section 1 - Basic Concepts | |||
Introduction To Electrical Systems | 00:00:00 | ||
Electric Circuits, Charges, And Current | 00:00:00 | ||
Solved Examples 1 | 00:00:00 | ||
Voltage, Energy, And Power | 00:00:00 | ||
Solved Examples 2 | 00:00:00 | ||
Dependent And Independent Source | 00:00:00 | ||
Cathode Ray Tube And Electricity Bills | 00:00:00 | ||
Electric Circuits Slides | 00:00:00 | ||
Resonance in Electric Systems | 00:00:00 | ||
Section 2 - Basic Laws | |||
Introduction To Basic Laws | 00:00:00 | ||
Ohm’s Law And Conductance | 00:00:00 | ||
Solved Examples 1 | 00:00:00 | ||
Branch, Nodes, Loops, Series, And Parallel Connection | 00:00:00 | ||
Kirchhoff’s Laws KVL And KCL | 00:00:00 | ||
Solved Examples 2 | 00:00:00 | ||
Voltage Division, Current Division, Analogy Between Resistance And Conductance | 00:00:00 | ||
Solved Examples 3 | 00:00:00 | ||
Delta-Wye And Wye-Delta Transformations | 00:00:00 | ||
Solved Examples 4 | 00:00:00 | ||
Application On Basic Laws With Solved Examples | 00:00:00 | ||
Section 3 - Methods Of Analysis | |||
Methods Of Analysis And Nodal Analysis With No Voltage Source | 00:00:00 | ||
Solved Example 1 | 00:00:00 | ||
Nodal Analysis With A Voltage Source | 00:00:00 | ||
Solved Examples 2 | 00:00:00 | ||
Mesh Analysis With No Current Source | 00:00:00 | ||
Solved Examples 3 | 00:00:00 | ||
Mesh Analysis With A Current Source | 00:00:00 | ||
Solved Example 4 | 00:00:00 | ||
Nodal vs Mesh Analysis | 00:00:00 | ||
Application Transistor Circuit With A Solved Example | 00:00:00 | ||
Section 4 - Circuit Theorems | |||
Introduction To Circuit Theorems | 00:00:00 | ||
Superposition Theorem | 00:00:00 | ||
Example 1 On Superposition Theorem | 00:00:00 | ||
Example 2 On Superposition Theorem | 00:00:00 | ||
Source Transformation Theorem | 00:00:00 | ||
Example 1 On Source Transformation Theorem | 00:00:00 | ||
Example 2 On Source Transformation Theorem | 00:00:00 | ||
Thevenin Theorem | 00:00:00 | ||
Example 1 On Thevenin Theorem | 00:00:00 | ||
Example 2 On Thevenin Theorem | 00:00:00 | ||
Norton Theorem | 00:00:00 | ||
Example 1 On Norton Theorem | 00:00:00 | ||
Example 2 On Norton Theorem | 00:00:00 | ||
Maximum Power Transfer | 00:00:00 | ||
Example On Maximum Power Transfer | 00:00:00 | ||
Section 5 - Operational Amplifiers | |||
Introduction To Operational Amplifiers | 00:00:00 | ||
Example On Non Ideal Op Amp | 00:00:00 | ||
Construction Of Ideal Operational Amplifiers | 00:00:00 | ||
Example On Ideal Operational Amplifiers | 00:00:00 | ||
Construction Of Inverting Operational Amplifiers | 00:00:00 | ||
Example 1 On Inverting Operational Amplifiers | 00:00:00 | ||
Example 2 On Inverting Operational Amplifiers | 00:00:00 | ||
Construction Of Non Inverting Operational Amplifiers | 00:00:00 | ||
Example On Non Inverting Operational Amplifiers | 00:00:00 | ||
Construction Of Summing Operational Amplifiers | 00:00:00 | ||
Example On Summing Operational Amplifiers | 00:00:00 | ||
Construction Of Difference Operational Amplifiers | 00:00:00 | ||
Example On Difference Operational Amplifiers | 00:00:00 | ||
Cascaded Operational Amplifiers | 00:00:00 | ||
Example On Cascaded Operational Amplifiers | 00:00:00 | ||
Digital To Analog Converter | 00:00:00 | ||
Example On Digital To Analog Converter | 00:00:00 | ||
Instrumentation Amplifiers | 00:00:00 | ||
Example On Instrumentation Amplifiers | 00:00:00 | ||
Section 6 - Capacitors And Inductors | |||
Introduction To Capacitors | 00:00:00 | ||
Equations Of A Capacitor | 00:00:00 | ||
Solved Examples On Capacitors | 00:00:00 | ||
Series And Parallel Capacitors | 00:00:00 | ||
Solved Examples On Series And Parallel Capacitors | 00:00:00 | ||
Introduction To Inductors | 00:00:00 | ||
Solved Examples On Inductors | 00:00:00 | ||
Series And Parallel Inductors | 00:00:00 | ||
Solved Examples On Series And Parallel Indcutors | 00:00:00 | ||
Application Integrator | 00:00:00 | ||
Application Differentiator | 00:00:00 | ||
Section 7 - First Order Circuits - Source-Free | |||
Introduction To First Order Circuits | 00:00:00 | ||
Source-Free RC Circuit | 00:00:00 | ||
Example 1 On Source-Free RC Circuit | 00:00:00 | ||
Example 2 On Source-Free RC Circuit | 00:00:00 | ||
Source-Free RL Circuit | 00:00:00 | ||
Example 1 On Source-Free RL Circuit | 00:00:00 | ||
Example 2 On Source-Free RL Circuit | 00:00:00 | ||
Section 8 - First Order Circuits - Step Response | |||
Step Response Of An RC Circuit | 00:00:00 | ||
Example 1 On Step Response Of An RC Circuit | 00:00:00 | ||
Example 2 On Step Response Of An RC Circuit | 00:00:00 | ||
Step Response Of An RL Circuit | 00:00:00 | ||
Example 1 On Step Response Of An RL Circuit | 00:00:00 | ||
Example 2 On Step Response Of An RL Circuit | 00:00:00 | ||
Section 9 - Basics Of AC Circuits | |||
Introduction To AC Electric Circuits | 00:00:00 | ||
Solved Examples 1 | 00:00:00 | ||
Phasor Representation Of AC | 00:00:00 | ||
Solved Examples 2 | 00:00:00 | ||
Phasor Relationshipe For Circuit Elements | 00:00:00 | ||
Impedance And Admittance | 00:00:00 | ||
Kirchhoff’s Law And Impedance Combinations In The Frequency Domain | 00:00:00 | ||
Solved Example 1 On Impedance Combination | 00:00:00 | ||
Solved Example 2 On Voltage Division | 00:00:00 | ||
Solved Example 3 On Impedance Combination | 00:00:00 | ||
Section 10 - Sinusoidal Steady-State Analysis | |||
Solved Example 1 On Nodal Analysis | 00:00:00 | ||
Solved Example 2 On Nodal Analysis | 00:00:00 | ||
Solved Example 1 On Mesh Analysis | 00:00:00 | ||
Solved Example 2 On Mesh Analysis | 00:00:00 | ||
Solved Example 1 On Superposition Theorem | 00:00:00 | ||
Solved Example 2 On Superposition Theorem | 00:00:00 | ||
Solved Example On Source Transformation | 00:00:00 | ||
Solved Example 1 On Thevenin Theorem | 00:00:00 | ||
Solved Example 2 On Thevenin Theorem | 00:00:00 | ||
Solved Example On Norton Theorem | 00:00:00 | ||
Section 11 - AC Power Analysis | |||
Introduction To AC Power Analysis | 00:00:00 | ||
Instantaneous Power And Average Power | 00:00:00 | ||
Solved Examples 1 | 00:00:00 | ||
Maximum Average Power Transfer | 00:00:00 | ||
Solved Examples 2 | 00:00:00 | ||
Effective Or RMS Value In AC Circuits | 00:00:00 | ||
Solved Examples 3 | 00:00:00 | ||
Apparent Power And Power Factor | 00:00:00 | ||
Solved Examples 4 | 00:00:00 | ||
Complex Power And Power Triangle | 00:00:00 | ||
Solved Examples 5 | 00:00:00 | ||
Power Factor Correction | 00:00:00 | ||
Solved Example 6 | 00:00:00 | ||
Section 12 - Series Resonant Circuit | |||
Introduction To Resonance In Electric Systems | 00:00:00 | ||
Definition And Equations Of A Series Resonant Circuit | 00:00:00 | ||
Quality Factor Of A Series Resonant Circuit | 00:00:00 | ||
Total Impedance vs Frequency In A Series Resonant Circuit | 00:00:00 | ||
Bandwidth And Selectivity Curve In A Series Resonant Circuit | 00:00:00 | ||
Derivation Of Cutoff Frequencies | 00:00:00 | ||
Example 1 On Series Resonant Circuit | 00:00:00 | ||
Example 2 On Series Resonant Circuit | 00:00:00 | ||
Example 3 On Series Resonant Circuit | 00:00:00 | ||
Example 4 On Series Resonant Circuit | 00:00:00 | ||
Example 5 On Series Resonant Circuit | 00:00:00 | ||
Section 13 - Parallel Resonant Circuit | |||
Parallel Resonant Circuit | 00:00:00 | ||
Unity Power Factor Of A Parallel Resonant Circuit | 00:00:00 | ||
Maximum Impedance Of A Parallel Resonant Circuit | 00:00:00 | ||
Quality Factor Of A Parallel Resonant Circuit | 00:00:00 | ||
Bandwidth And Cutoff Frequencies Of A Parallel Resonant Circuit | 00:00:00 | ||
Effect Of High Quality Factor Of A Parallel Resonant Circuit | 00:00:00 | ||
Example 1 On Parallel Resonant Circuit | 00:00:00 | ||
Example 2 On Parallel Resonant Circuit | 00:00:00 | ||
Example 3 On Parallel Resonant Circuit | 00:00:00 | ||
Example 4 On Parallel Resonant Circuit | 00:00:00 | ||
Example 5 On Parallel Resonant Circuit | 00:00:00 | ||
Example 6 On Parallel Resonant Circuit | 00:00:00 |