Lecture - 1 Introduction to System Elements

Lecture -2 Newtons Method and Constraints

Lecture - 3 Derivation of the Lagrangian Equation

Lecture - 4 Using the lagrangian Equation to Obtain Differential Equatio...

Lecture - 5 Using the lagrangian Equation to Obtain Differential Equatio...

Lecture - 6 Using the lagrangian Equation to Obtain Differential Equatio...

Lecture - 7 Using the lagrangian Equation to Obtain Differential Equatio...

Lecture - 8 Obtaining First Order Equations

Lecture - 9 Application of the Hamiltonian Method

Lecture - 10 Obtaining Differential Equations Using Kirchoff's Laws

Lecture - 11 The Graph Theory Approach for Electrical Circuits(Part-I)

Lecture - 12 The Graph Theory Approach for Electrical Circuits(Part-II)

Lecture - 13 The Bond Graph Approach-I

Lecture - 14 The Bond Graph Approach-II

Lecture - 15 The Bond Graph Approach-III

Lecture - 16 The Bond Graph Approach-IV

Lecture - 17 The Bond Graph Approach-V

Lecture - 18 The Bond Graph Approach-VI

Lecture - 19 The Bond Graph Approach-VII

Lecture - 20 Numerical Solution of Differential Equations

Lecture - 21 Dynamics in the State Space

Lecture - 22 Vector Field Around Equilibrium Points-I

Lecture - 23 Vector Field Around Equilibrium Points-II

Lecture - 24 Vector Field Around Equilibrium Points-III

Lecture - 25 Vector Field Around Equilibrium Points-IV

Lecture - 26 High Dimensional Linear Systems

Lecture - 27 Linear Systems with External Input-I

Lecture - 28 Linear Systems with External Input-II

Lecture - 29 Linear Systems with External Input-III

Lecture - 30 Dynamics of Nonlinear Systems-I

Lecture - 31 Dynamics of Nonlinear Systems-II

Lecture - 32 Dynamics of Nonlinear Systems-III

Lecture - 33 Discrete-Time Dynamical Systems-I

Lecture - 34 Discrete-Time Dynamical Systems-II