NPTEL : NOC:Basic Electric Circuits (Electrical Engineering)

Co-ordinators : Prof. Ankush Sharma


Lecture 1 - Basic Concepts

Lecture 2 - Sinusoids and Phasors

Lecture 3 - Circuit Elements - Part 1

Lecture 4 - Circuit Elements - Part 2

Lecture 5 - AC Power Analysis

Lecture 6 - RMS Voltage and Current

Lecture 7 - Topology

Lecture 8 - Star-Delta Transformation and Mesh Analysis

Lecture 9 - Mesh Analysis.

Lecture 10 - Nodal Analysis

Lecture 11 - Linearity Property and Superposition Theorem

Lecture 12 - Source Transformation

Lecture 13 - Duality

Lecture 14 - Thevenin's Theorem - 1

Lecture 15 - Thevenin's Theorem - 2

Lecture 16 - Norton's Theorem - 1

Lecture 17 - Norton's Theorem - 2

Lecture 18 - Maximum Power Transfer Theorem - 1

Lecture 19 - Maximum Power Transfer Theorem - 2

Lecture 20 - Reciprocity and Compensation Theorem

Lecture 21 - First Order RC Circuits

Lecture 22 - First Order RL Circuits

Lecture 23 - Singularity Functions

Lecture 24 - Step Response of RC and RL Circuits

Lecture 25 - Second Order Response

Lecture 26 - Step Response of Second Order Circuits-First Order and Second Order Circuits (Continued...)

Lecture 27 - Step Response of Parallel RLC Circuit-First Order and Second Order Circuits (Continued...)

Lecture 28 - Definition of the Laplace Transform

Lecture 29 - Properties of the Laplace Transform

Lecture 30 - Inverse Laplace Transform

Lecture 31 - Laplace Transform of Circuit Elements

Lecture 32 - Transfer Function

Lecture 33 - Convolution Integral

Lecture 34 - Graphical Approach of Convolution Integral

Lecture 35 - Network Stability and Network Synthesis

Lecture 36 - Impedance Parameters

Lecture 37 - Admittance Parameters

Lecture 38 - Hybrid Parameters

Lecture 39 - Transmission Parameters

Lecture 40 - Interconnection of Networks

Lecture 41 - Nodal and Mesh Analysis

Lecture 42 - Superposition Theorem and Source Transformation

Lecture 43 - Thevenin's, Norton's and, Maximum Power Transfer Theorem

Lecture 44 - Magnetically Coupled Circuits

Lecture 45 - Energy in Coupled Circuits and Ideal Transformer

Lecture 46 - Ideal Transformer and Introduction to Three-Phase Circuits

Lecture 47 - Balanced Three-Phase Connections

Lecture 48 - Balanced Wye-Delta and Delta-Delta Connections

Lecture 49 - Balanced Delta-Wye Connection and Power in Balanced Three-Phase System

Lecture 50 - Unbalanced Three-Phase System and Three-Phase Power Measurement

Lecture 51 - Introduction to Graphical Models

Lecture 52 - State Equations

Lecture 53 - State Diagram

Lecture 54 - State Transition Matrix

Lecture 55 - State Variable Method to Circuit Analysis

Lecture 56 - Characteristic Equation, Eigenvalues, and Eigenvectors-State Variable Analysis (Continued...)

Lecture 57 - Modeling of Mechanical Systems

Lecture 58 - Modeling of The Rotational Motion of Mechanical Systems

Lecture 59 - Modeling of Electrical Systems

Lecture 60 - Solving Analogous Systems