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DC Circuit Analysis

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DC Circuit Analysis, available at $59.99, has an average rating of 4.85, with 48 lectures, 2 quizzes, based on 143 reviews, and has 544 subscribers.

You will learn about Know all the Fundamentals of Electric DC Circuits Know the concept of the Nodes, Junctions, Mesh and Loops Bilateral and Unilateral Elements, Linear and Non-Linear Elements, Lumped and Distributed Elements Series and Parallel connection of elements Star to Delta, Delta to Star Conversion Ideal and Practical i) Voltage Sources ii) Current sources Know the difference between Dependent and Independent Sources Definition of the Kirchhoff's laws (KVL and KCL) Voltage & Current Divider Theorem Mesh Analysis Loop Analysis Nodal Analysis Superposition Theorem Thevenin’s Theorem Norton’s Theorem Maximum Power Transfer Theorem Millman’s Theorem This course is ideal for individuals who are This course is for anyone who wants in-depth information about the fundamentals of Electric DC Circuits It is particularly useful for This course is for anyone who wants in-depth information about the fundamentals of Electric DC Circuits.

Enroll now: DC Circuit Analysis

Summary

Title: DC Circuit Analysis

Price: $59.99

Average Rating: 4.85

Number of Lectures: 48

Number of Quizzes: 2

Number of Published Lectures: 48

Number of Published Quizzes: 2

Number of Curriculum Items: 50

Number of Published Curriculum Objects: 50

Number of Practice Tests: 2

Number of Published Practice Tests: 2

Original Price: ₹1,999

Quality Status: approved

Status: Live

What You Will Learn

  • Know all the Fundamentals of Electric DC Circuits
  • Know the concept of the Nodes, Junctions, Mesh and Loops
  • Bilateral and Unilateral Elements, Linear and Non-Linear Elements, Lumped and Distributed Elements
  • Series and Parallel connection of elements
  • Star to Delta, Delta to Star Conversion
  • Ideal and Practical i) Voltage Sources ii) Current sources
  • Know the difference between Dependent and Independent Sources
  • Definition of the Kirchhoff's laws (KVL and KCL)
  • Voltage & Current Divider Theorem
  • Mesh Analysis
  • Loop Analysis
  • Nodal Analysis
  • Superposition Theorem
  • Thevenin’s Theorem
  • Norton’s Theorem
  • Maximum Power Transfer Theorem
  • Millman’s Theorem

Who Should Attend

  • This course is for anyone who wants in-depth information about the fundamentals of Electric DC Circuits

Target Audiences

  • This course is for anyone who wants in-depth information about the fundamentals of Electric DC Circuits

We continue by covering another major aspect that is often forgotten in many courses. This course has been created to help you understand the fundamentals of DC Circuit Analysis such as

  1. Definition of various circuit elements

  2. Fundamentals of Electric DC Circuits

  3. Bilateral and Unilateral Elements, Linear and Non-Linear Elements, Lumped and Distributed Elements

  4. Series and Parallel connection of elements

  5. Star to Delta, Delta to Star Conversion

  6. Ideal & Practical Voltage & Current Sources.

  7. Know the difference between Dependent and Independent Sources

  8. Definition of the Kirchhoff’s laws (Kirchhoff’s Voltage Law and Kirchhoff’s Current Law)

  9. Various methods of circuit analysis – Mesh Analysis, Loop Analysis, Nodal Analysis

  10. Circuit Theorems – Superposition Theorem, Thevenin’s Theorem, Norton’s Theorem, Maximum Power Transfer Theorem, Millman’s Theorem

This course is for anyone who wants in-depth information about the fundamentals of Electric DC Circuits. The course does not require any prior knowledge and covers all the basics to understand each concept with supporting numerical to understand the application of the concepts. Sample problems and assignments have been included to increase understanding of each topic.

At the end of the course, quiz is added to provide students with an insight into their concept comprehension. This course has been crafted with care. I hope to see you go through the course and work alongside the many happy students.

Course Curriculum

Chapter 1: Fundamentals of Electric DC Circuits

Lecture 1: Concept of Nodes & Junctions

Lecture 2: Concept of Loop and Mesh

Lecture 3: Types of Circuit Elements: Unilateral & Bilateral, Linear & Nonlinear

Lecture 4: Numerical 1 on Linear networks

Lecture 5: Numerical 2 on Linear Networks

Lecture 6: Equivalent of Series and Parallel connection of Resistances

Lecture 7: Numerical 1 on Series and Parallel Connection

Lecture 8: Numerical 2 on Series and Parallel Connection

Lecture 9: Simplification of resistive networks by Star to Delta, Delta to Star Conversion

Lecture 10: Numerical 1 on Star-Delta Transformation

Lecture 11: Numerical 2 on Star-Delta Transformation

Chapter 2: Voltage & Current Sources, Kirchhoff's laws, Voltage and Current Divider Theorem

Lecture 1: Ideal and Practical Voltage Sources & Current Sources

Lecture 2: Independent and Dependent Sources

Lecture 3: Kirchhoff's laws (Kirchhoff's Voltage law & Kirchhoff's Current law)

Lecture 4: Current Divider Theorem

Lecture 5: Voltage Divider Theorem

Lecture 6: Kirchhoff's laws (Kirchhoff's Voltage law & Kirchhoff's Current law)

Lecture 7: Numerical 1 on KCL and KVL

Lecture 8: Numerical 2 on KCL and KVL

Lecture 9: Numerical 3 on KCL and KVL

Lecture 10: Numerical on Current Divider Theorem

Lecture 11: Numerical on Voltage Divider Theorem

Chapter 3: Application of Mesh & Loop Analysis for DC Circuits

Lecture 1: Application of Mesh analysis in DC circuits with mixed sources

Lecture 2: Nodal Analysis with Current Sources

Lecture 3: Nodal Analysis with Voltage Source

Lecture 4: Super Mesh Analysis

Lecture 5: Super Node Method: Special Case of Nodal Analysis

Lecture 6: Numerical 1 on Mesh Analysis

Lecture 7: Numerical 1 on KVL Analysis

Lecture 8: Numerical 2 on KVL Analysis

Lecture 9: Numerical 1 on Nodal Analysis

Lecture 10: Numerical on Mesh Analysis – Super Mesh

Lecture 11: Numerical on Mesh Analysis – Super Node

Lecture 12: Numerical 1 on Mesh Analysis using Dependent Sources

Chapter 4: Application of theorems

Lecture 1: Statement of Thevenin’s Theorem

Lecture 2: Numerical 1 on Thevenin's theorem

Lecture 3: Numerical 2 on Thevenin's Theorem

Lecture 4: Superposition Theorem

Lecture 5: Numerical 1 on Superposition Theorem

Lecture 6: Norton Theorem

Lecture 7: Numerical 1 on Norton Theorem

Lecture 8: Numerical 2 on Norton Theorem

Chapter 5: Application of Maximum Power Transfer Theorem & Millman’s Theorem

Lecture 1: Maximum Power Transfer Theorem

Lecture 2: Numerical 1 on Maximum Power Transfer Theorem

Lecture 3: Numerical 2 on Maximum Power Transfer Theorem

Lecture 4: Millman's Theorem

Lecture 5: Dual of Millman's Theorem

Lecture 6: Numerical 1 on Millman's Theorem

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  • 5 stars: 130 votes

Frequently Asked Questions


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You can view and review the lecture materials indefinitely, like an on-demand channel.


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