Ohm'S Law Is Everywhere! Dc Electrical Circuit Analysis

Overcome your difficulties in circuit analysis, pass your exams with flying colors: An extensive and practical course...
What you'll learn
How to easily analyze any kind of DC circuit,
Where to use Kirchhoff's Current Law (KCL) and Kirchhoff's Voltage Law (KVL) effectively,
How to use more sophisticated methods Node Voltage and Mesh Analysis,
Using linearity properties (Source Transformation, Super Position) in DC circuits to analyze,
The importance, the structures and the usage of measurement devices like voltmeter and ammeter,
Using Thevenin and Norton equivalent methods may be the best when analyzing any DC circuit, rather than methods to be afraid of,
Analysis during exceptional conditions of circuits,
More importantly: the relationship between the principles based on Ohm's Law and the practical work.
Requirements
Having a standard algebra knowledge is highly enough for this course...
Description
OHM'S LAW IS EVERYWHERE!: DC ELECTRICAL CIRCUIT ANALYSISIt is always confusing to deal with electrical circuits for electrical engineering students. Questions like, "How can I analyze this circuit?", "Where should I start to analyze?" are the most typical and motivation breaker questions for them. After completing this course, these questions will no longer bother you and you will know what to do and where to start because, Ohm's Law is everywhere! From the simplest circuit to a complex circuitboard. Learning that Kirchoff's Current Law (KCL), Kirchhoff's Voltage Law (KVL), Node Voltage Analysis and Mesh Analysis are just the reflection of the complex electronic circuit full of Ohm's Law relations, you will find it extremely easy to solve any DC circuit. Course also includes, Superposition, Norton and Thevenin Equivalent methods which summaries the whole linear circuit theory.No matter what is included in a linear circuit either DC or AC (Alternating Current system which you will learn later on), things you learned in this course are always the ultimate ways to solve and design any electrical system!Another important question that appears kind of a confusion for electrical engineering students is that "Will I witness any of these in real life?". This question simply removes all of the motivation regarding to the student's perception towards electrical circuits. The answer to this question is Yes! Every circuit is based on these simple concepts that depend on Ohm's Law which is one of the most fundamental laws of the nature. During the lectures, you will have practice exercises that you can try to solve and check the answers by watching the experimental result videos showing the real life examples of the circuits that you just analyzed in those practice exercises! So it is possible to see the real life results of what you analyzed and calculated in this course.Also, a list of electrical components is provided for you to buy and experiment some circuits with them at the end of the course. If you want more theoretical work and more exercises, there are resources at the end of the course that you can download as a soft copy and solve all of the comprehensive practice questions to enhance your analyzing skills!The Course Sections are Organized As FollowsOhm's Law is everywhere: the implications of Ohm's LawKirchhoff's methods: KCL, KVL and their connections to Ohm's LawSophisticated implications of Kirchhoff's methods: Node Voltage and Mesh Analysis The meaning of linear circuits: Superposition Principle, independent and dependent sources, measurement devices (Voltmeter-Ammeter)Generalization of linear circuits and electrical power: Source transformations, Norton and Thevenin equivalents, maximum power transfer and efficiency
Overview
Section 1: Ohm's Law Is Everywhere!
Lecture 1 The meaning of Ohm's Law
Lecture 2 Series connection
Lecture 3 Parallel connection
Lecture 4 Let's analyze together
Lecture 5 Section 2 Self-Practice Exercises Experimental Video 1.a
Lecture 6 Section 2 Self-Practice Exercises Experimental Video 1.b
Section 2: Kirchhoff's Methods
Lecture 7 Kirchhoff's Current Law (KCL)
Lecture 8 Kirchhoff's Voltage Law (KVL)
Lecture 9 The generalization of KCL and KVL
Lecture 10 Let's analyze together
Lecture 11 Section 3 Self-Practice Exercises Experimental Video 1
Section 3: Sophisticated Implications of Kirchhoff's Methods
Lecture 12 Node Voltage Method
Lecture 13 Node Voltage Example and Voltage References
Lecture 14 Mesh Analysis Method
Lecture 15 Let's analyze together
Lecture 16 Section 4 Self-Practice Exercises Experimental Video 1.a
Lecture 17 Section 4 Self-Practice Exercises Experimental Video 1.b
Section 4: The Meaning of Linear Circuits
Lecture 18 The principle of Superposition
Lecture 19 Independent sources: Real sources and their internal resistances
Lecture 20 Independent sources: Real sources and their internal resistances example
Lecture 21 Measuring voltage by using Voltmeter
Lecture 22 Measuring current by using Ammeter
Lecture 23 Dependent voltage sources with Superposition analysis
Lecture 24 Dependent current sources with Superposition analysis
Lecture 25 Let's analyze together (Dependent Sources)
Lecture 26 Super Node in Node Voltage analysis
Lecture 27 Super Mesh in Mesh analysis
Lecture 28 Section 5 Self-Practice Exercises Experimental Video 1
Lecture 29 Section 5 Self-Practice Exercises Experimental Video 2.b
Lecture 30 Section 5 Self-Practice Exercises Experimental Video 2.c
Lecture 31 Section 5 Self-Practice Exercises Experimental Video 3.b
Lecture 32 Section 5 Self-Practice Exercises Experimental Video 3.c
Section 5: Generalization of Linear Circuits and Electrical Power
Lecture 33 Source transformations
Lecture 34 Let's analyze together (Source Transformations)
Lecture 35 Ineffective resistance in source transformations
Lecture 36 Thevenin equivalent method
Lecture 37 Let's analyze together (Thevenin Equivalent)
Lecture 38 Norton equivalent method
Lecture 39 Maximum power transfer
Lecture 40 Efficiency
Lecture 41 Real demonstration of power transfer and efficiency: conservation of energy
Lecture 42 Section 6 Self-Practice Exercises Experimental Video 1
Lecture 43 Section 6 Self-Practice Exercises Experimental Video 3
Lecture 44 Section 6 Self-Practice Exercises Experimental Video 4
Lecture 45 Section 6 Self-Practice Exercises Experimental Video 5
Section 6: Wrap-up
Lecture 46 Congratulations, you are done!
Section 7: Improve Your Skills Further!
Electric and Electronics Engineering Undergraduate and Graduate Students,Also for Any Curious Folks :)
Screenshots


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