YouTube
Free Online Course
English
17 hours worth of material
selfpaced
Overview
In this course, you will learn all about Network Theory for GATE. You will learn about classification of elements and sources, KCL, KVL, series and parallel connections, source transformation, Nodal, Mesh and Tellegen’s Theorems, Superposition Theorem and Homogeneity Principle, Thevenin and Norton’s Theorems, Maximum Power Transfer Theorem, Reciprocity Substitution and Millman’s Theorems, Network Theorem, steady state response, transient, two-port network, AC circuit analysis, phasor diagram, power circulation in AC circuit, series and parallel resonance, magnetically coupled circuit, and much more.
Syllabus
Lec-00 Introduction to Network Theory.
Lec-01 Classification of Element.
Lec-02 Classification of Sources.
Lec-03 KCL,KVL,Series Parallel Connection,Source Transformation.
Lec-04 Nodal,Mesh & Tellegen's Theorem.
Lec-05 Question Discussion (based on all previous lecture).
Lec-06 NT-Superposition Th. & Homogenity Principle.
Lec-07 NT-Thevenin & Norton Theorem.
Lec-08 NT-Maximum Power Transfer Theorem.
Lec-09 NT-Reciprocity Substitution & Millman's Theorem.
Lec-10 GATE Ques Solved From Network Theorem.
Lec-11 Steady State Response.
Lec-12 TRANSIENT (Full Concept in 1 hour only).
Lec-13 TRANSIENT (Source Free RL Circuit).
Lec-14 TRANSIENT (Source Free RC & RLC Circuit).
Lec-15 TRANSIENT with sources at t=0+ & t=infinite.
Lec-16 TRANSIENT with Sources for t greater than 0.
Lec-17 AC Transient Free Condition.
Lec-18 Two Port Network-Part I.
Lec-19 Two Port Network-Part II.
Lec-20 AC Circuit Analysis.
Lec-21 Phasor Diagram.
Lec-22 Power Calculation in AC Circuit.
Lec-23 Series Resonance.
Lec-24 Parallel Resonance.
Lec-25 Magnetically Coupled Circuit.
Lec-26 ESE 2017 Problem Solved.
Lec-27 GATE 2017 EE Question Solved.
Lec-28 GATE 2017 ECE Question Solved.
Lec-29(a) ESE 2018 EE Question Solved (Part I).
Lec 29(b) ESE 2018 EE Question Solved Part II.
Taught by
GATEMATIC Education