
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.
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
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