Fundamentals of Electrical Engineering
Duration: 22h 52m | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 5.48 GB
Genre: eLearning | Language: English
Duration: 22h 52m | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 5.48 GB
Genre: eLearning | Language: English
DC Electric Circuits Analysis
What you'll learn:
Fundamentals of Electrical Engineering
How Electricity Work
Electrical Formulas
Electric Circuit Analysis
Circuit Theorems
Requirements:
Math Basics
Description:
This course in electric circuit analysis can be used by electrical engineering students as well as students of other disciplines.
the course begins with the fundamental definitions and overview of the principle of operation of basic circuits and electrical devices.
the course covers numerous problems with solutions and the level of difficulty increases in the next lectures ( each example is difficult more than the previous ) to understand the theory in greater depth.
Chapter (1) – Electrical Fundamentals:
Introduction to electrical engineering
Matter
Electron theory
Magnetism
Electricity
Electromagnetism
Use of electromagnetism
Chapter (2) - Electrical Formulas:
Ohm’s Law
Power Formula
Electrical Energy
Electricity Bill
Chapter (3) – Basic Electric Circuits:
Electrical sources
The difference between node, loop, and branch
Series circuits
I.Current
II.Resistance
III.Voltage drop
IV.Voltage divider
V.Aiding and opposing sources
VI.Kirchhoff's voltage law
VII.Dissipated power
VIII.Illumination of series bulbs
Parallel circuits
I.Current division
II.Application of parallel circuits
III.Illumination of parallel bulbs
Open circuit and short circuit
Chapter (4) – Series-Parallel Combination Circuits:
series-parallel circuit
Circuit Dependent sources
Examples
Chapter (5) – Nodal and Loop Analysis Techniques:
Introduction
Nodal analysis
I.Circuits with independent sources
II.Solving equations with two unknown variables
III.Solving equations with three and more unknown variables
IV.Circuits with dependent sources
V.Supernode
Loop analysis
I.Circuits with independent sources
II.Supermesh
III.Circuits with dependent sources
Star delta transformation
delta to star transformation
Chapter (6) – Network Theorems for Circuit Analysis:
Source transformation
Superposition theorem
Thevenin’s theorem
Norton’s theorem
Maximum power transfer theorem
Who this course is for:
Electrical Engineering Students and Engineers
Communication Engineering Students and Engineers
Physics Students
Any Field Study Electrical Circuits
More Info