Circuit Theory

About Course

This Circuit Theory course covers four main ideas:

1- skills to solve and simplify single source circuits ( ohm’s law, power concept, Voltage, and current division, KVL, KCL, circuits simplification ).

2- methods to solve any complex resistive circuits with multiple sources.

3- Full discussion of natural and forced response for circuits with non-linear elements such as capacitors and induction.

4- Full discussion of the circuit frequency domain, and how to apply the methods and skills explained earlier to solve those circuits.

Who this Circuit Theory course is for:

Beginners in circuit analysis
Electrical Engineers
Mechanical Engineers
Industrial Engineers
Students that passionate to learn about the fundamentals of circuits

The basic concepts to understand electrical circuits
Identify terms as ( Resistors , Current , Voltage , Power , Energy , Capacitance , inductance )
learn the Basic tools such as ( ohm's law , KCL , KVL , current & Voltage Division and circuit simplification )
learn techniques to solve complex circuits such as ( Nodal Analysis , Mesh Analysis , Source Transformation , Superposition and Thevinin Equivalent Circuit)
learn Natural Responses and Forced Responses of circuits containing (RL , RC and RLC circuits)
use the complex Frequency Domain to deal with circuits

Course Content

Circuit Theory

Kirchhoff’s current law

06:03
Supernode Analysis Explained (with Examples)

08:55
Supermesh Explained (with examples)

12:59
Superposition Theorem Explained (with Examples)

18:56
Draft LessonThevenin’s Theorem Explained (With examples of Independent and Dependent Sources)

16:36
Maximum Power Transfer Theorem for DC Circuits (with Examples)

10:29
Self Inductance and Mutual Inductance Explained

10:59
Transient Analysis: Behaviour of Basic Circuit Elements

15:07
Transient Analysis: First order R C and R L Circuits

27:16
Kirchhoff’s Voltage Law (KVL) explained

07:50
Kirchhoff’s Current Law (KCL) explained

08:14
Source transformation in network analysis

13:46
Kirchhoff’s voltage law

06:50
Node voltage method (steps 1 to 4)

09:56
Node voltage method (step 5)

06:25
Mesh current steps 1 to 3

09:16
Mesh current method (step 4 solve)

12:12
Essential & Practical Circuit Analysis: Part 1- DC Circuits

01:36:50
Circuit terminology: Concept of Loop, Mesh, Node and Branch explained

04:34
Classification of Electrical Network

08:24
Transient Analysis: Solved Examples on First order RC and RL Circuits

16:58

Student Ratings & Reviews

No Review Yet

About Course

This Circuit Theory course covers four main ideas:

Who this Circuit Theory course is for:

What Will You Learn?

Course Content

Circuit Theory

Kirchhoff’s current law

Supernode Analysis Explained (with Examples)

Supermesh Explained (with examples)

Superposition Theorem Explained (with Examples)

Draft LessonThevenin’s Theorem Explained (With examples of Independent and Dependent Sources)

Maximum Power Transfer Theorem for DC Circuits (with Examples)

Self Inductance and Mutual Inductance Explained

Transient Analysis: Behaviour of Basic Circuit Elements

Transient Analysis: First order R C and R L Circuits

Kirchhoff’s Voltage Law (KVL) explained

Kirchhoff’s Current Law (KCL) explained

Source transformation in network analysis

Kirchhoff’s voltage law

Node voltage method (steps 1 to 4)

Node voltage method (step 5)

Mesh current steps 1 to 3

Mesh current method (step 4 solve)

Essential & Practical Circuit Analysis: Part 1- DC Circuits

Circuit terminology: Concept of Loop, Mesh, Node and Branch explained

Classification of Electrical Network

Transient Analysis: Solved Examples on First order RC and RL Circuits

Student Ratings & Reviews