- Feb 25, 2019
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Video: .MP4, 1280x720 30 fps | Audio: AAC, 44.1 kHz, 2ch | Duration: 05:31:00
Genre: eLearning | Language: English + Subtitles | Size: 1.21 GB
This course is designed to provide a complete overview of electric circuit analysis.
Start your career in electrical engineering by learning everything about electric circuitsWhat an electric circuit is and the fundamental quantities in circuits like voltage and current
The differences between direct current (DC) and alternating current (AC)
What resistors are and how they are used in electric circuits
Sources of electricity in electric circuits
Simplification of resistive circuits
Basic circuit analysis techniques using Kirchhoff's voltage and current laws, nodal analysis, and loop analysis
Advanced circuit analysis techniques such as the superposition theorem, Thévenin's theorem, and Norton's theorem
Basic knowledge of algebra
Circuit analysis is the most fundamental concept for electrical engineering, electronics engineering, and computer engineering. It is for that reason that circuit analysis is usually the first course taught in electrical, electronics, and computer engineering programs at universities, as basically anything related to electrical, electronics, or computer engineering stems from circuit analysis.
In this course you will learn everything about electric circuits, from the basics such as what an electric circuit is and the fundamentals of electrical quantities like voltage, current, and power, all the way to complex techniques for analyzing circuits. The course is roughly divided into the following sections:
1. Fundamentals: in sections 2 and 3 of the course, we will discuss what an electric circuit is at the most basic level, followed by explanations of electrical quantities and sources of electricity.
2. Basic DC Circuit Analysis: in sections 4, 5, and 6 we will discuss the analysis of direct current (DC) circuits, starting from basic analysis techniques such as Kirchhoff's voltage law and Kirchhoff's current law (KVL and KCL), voltage division, current division, nodal analysis, and loop analysis. We will also be discussing how complex resistive circuits can be simplified into equivalent circuits for easier analysis.
3. Advanced DC Circuit Analysis: in section 7, we will discuss advanced analysis techniques such as the superposition theorem, Thevenin's theorem, and Norton's theorem.
In each section, several examples are solved to illustrate how to analyze practical circuits.
By learning all the fundamentals about electric circuit analysis, you will be able to continue studying other topics in electrical engineering, electronics engineering, and computer engineering.
Remember that Udemy offers a 30-day money-back guarantee. I am also always available for questions while you go through the course to ensure everything is clear.
See you in the course!
Anybody with an interest in learning about electrical and computer engineering