09:47

Basics and Rules of Root Locus Plot Explained: Loci, Asymptotes, Break Away & Angle of Departure

11:28

3 Routh Stability Criterion Solved Examples: Steps, Process, and Detailed Explanation

09:31

2 Routh Stability Criterion Solved Examples: Steps, Process, and Detailed Explanation

12:40

1 Routh Stability Criterion Solved Examples: Steps, Process, and Detailed Explanation

08:33

Routh Stability Criterion for Oscillatory Conditions Solved Example: Step by Step Solution

12:45

Routh Stability Criterion for Stability Optimization Solved Example: Step by Step Solution

10:49

Routh Stability Criterion for Stability Range Solved Examples: Steps, Process & Detailed Explanation

13:05

Routh Stability Criterion Special Case II Solved Examples: Steps, Process, and Detailed Explanation

11:41

Routh Stability Criterion Special Case I Solved Examples: Steps, Process, and Detailed Explanation

11:19

Routh Stability Criterion Solved Examples: Steps, Process, and Detailed Explanation

12:03

Stability Criteria of Control System Explained

18:31

2nd Order System Parameters Solved Examples: Rise Time, Peak Time, Peak Overshoot, & Settling Time

06:44

Settling Time of Second Order System Explained: Basics, Definition, Derivation, and Equation

07:31

Maximum Peak Overshoot of Second Order System Explained: Basics, Definition, Derivation & Equation

09:16

Peak Time of Second Order System Explained: Basics, Definition, Derivation, and Equation

08:09

Rise Time of Second Order System Explained: Basics, Definition, Derivation, and Equation

16:35

Unit Step Response of Over Damped 2nd Order System Explained: Basics, Derivation, and Graph

15:42

Unit Step Response of Under Damped 2nd Order System Explained: Basics, Derivation, and Graph

10:53

Unit Step Response of Critically Damped 2nd Order System Explained: Basics, Derivation, and Graph

08:19

Unit Step Response of Undamped 2nd Order System Explained: Basics, Derivation, and Graph

12:11

Nature of Roots with 2nd Order System Explained: Basics, Derivation, Case Studies, and Stability

12:31

Unit Ramp Response of 1st Order System Explained: Basics, Derivation, and Graphical Understanding

12:02

Unit Step Response of 1st Order System Explained: Basics, Derivation, and Graphical Understanding

05:52

Unit Impulse Response of 1st Order System Explained: Basics, Derivation, and Graphical Understanding

08:06

Time Response Analysis Explained: Basics, Types, Example, Graphical Understanding, and Parameters

08:35

Order of the System Explained: Basics, Definition, and Solved Examples

11:06

Steady State Error with Unit Parabolic Input for Type 0, Type 1, and Type 2 Systems

08:21

Steady State Error with Unit Ramp Input for Type 0, Type 1, and Type 2 Systems

07:45

Steady State Error with Unit Step Input for Type 0, Type 1, and Type 2 Systems

02:25

Static Error Constants Explained: Positional, Velocity, and Acceleration Error Constants

08:17

Steady State Error Explained: Basics, Definition, Derivation

09:44

Test Signals Explained: Need, Types, (Impulse, Step, Ramp, and Parabolic Signals)

10:56

Force Current Analogy Solved Example: Steps, Parameters, Differential Equation & Example

09:14

Force Voltage Analogy Solved Example: Steps, Parameters, Differential Equation & Example

11:01

5 Mathematical Modeling of Mechanical System: Steps, Parameters, Differential Equation & Example

08:55

4 Mathematical Modeling of Mechanical System: Steps, Parameters, Differential Equation & Example

09:22

3 Mathematical Modeling of Mechanical System: Steps, Parameters, Differential Equation & Example

10:04

2 Mathematical Modeling of Mechanical System: Steps, Parameters, Differential Equation & Example

09:24

1 Mathematical Modeling of Mechanical System: Steps, Parameters, Differential Equation & Example

08:31

Torque Current Analogy: Derivation and Parameters of Mechanical System & Electrical System

09:06

Torque Voltage Analogy: Derivation and Parameters of Mechanical System & Electrical System

08:30

Force Current Analogy: Derivation and Parameters of Mechanical System & Electrical System

08:36

Force Voltage Analogy: Derivation and Parameters of Mechanical System & Electrical System

08:54

Mechanical Systems Explained: Basics, Types, and Parameters

08:00

Mathematical Models of Control Systems: Differential Equation, Transfer Function & State Space Model

12:11

2 Block Diagram to Signal Flow Graph Conversion and Transfer Function by Mason Gain Formula

13:59

1 Block Diagram to Signal Flow Graph Conversion and Transfer Function by Mason Gain Formula

08:35

Signal Flow Graph from Line Equations Solved Example: Step by Step Guide and Solution

10:37

4 Mason Gain Formula Solved Examples: Step by Step Guide and Solutions

09:18

3 Mason Gain Formula Solved Examples: Step by Step Guide and Solutions

09:44

2 Mason Gain Formula Solved Examples: Step by Step Guide and Solutions

12:56

1 Mason Gain Formula Solved Examples: Step by Step Guide and Solutions

11:39

Terminologies and Rules of Signal Flow Graph

09:24

3 Block Diagram Reduction Solved Examples: Step by Step Guide and Solutions

11:58

2 Block Diagram Reduction Solved Examples: Step by Step Guide and Solutions

11:32

1 Block Diagram Reduction Solved Examples: Step by Step Guide and Solutions

11:26

Block Diagram Reduction Rules: Complete Guide and Proof

08:35

Block Diagram Explained: Basics, Terms, Applications, Pros, and Cons

09:40

Transfer Function of Electrical Network Explained: Step by Step Solution and Guide

09:17

Transfer Function and Order of System of RLC Circuits: Step by Step Solution