01:11:36

Lec2: Average Value: GATE LECTURES SIGNAL EE ECE

01:18:13

Lec 22: Distance Relay Lecture for GATE EE

39:45

Lec 5: Power Flow Equation in ABCD Parameter

01:28:40

Lec 14: Equal Area Criterion Transient Stability of Generator

30:09

Lec 15: Generator and Motor Transient Stability

01:00:10

Lec 17: Z Parameter: Power System: Lecture of GATE EE

43:35

Lec 18: Gauss Siedel Method GATE LECTURE EE

01:44:24

Lec 19: Newton Raphson Method Lecture for GATE EE

29:07

Lec 21: Over head line insulator String Efficiency

59:59

Lec 20: Economic Operation of Power System

01:15:20

Lec 23: Over Current Relay Lecture for GATE EE

18:44

Lec 24: Differential Relay Lecture for GATE EE

01:01:21

Lec 13: unsymm fault

01:28:33

6 april ps stability

30:03

7 april motor stability

05:02:23

economic power gauss siedel newton raphson z bus over head line insulator

01:00:07

Lecture 13 z bus form aulation

29:12

Lecture 16 overhead trans line

01:16:19

Lec 27: FREQUENCY RESPONSE: GATE LECTURES SIGNAL EE ECE

01:06:04

Lec 25: CONVOLUTION BASICS: GATE LECTURES SIGNAL EE ECE

01:07:59

march seq dia

01:22:15

Lecture 20: GATE Questions: Power Electronics: 2019

01:20:03

Lecture 19: Voltage Source Inverter II: Power Electronics: GATE 2019

58:46

Lecture 15: Thyristor Commutation Technique II: Power Electronics: GATE 2019

01:21:58

Lecture 13: 3 Phase Semi Converter: Power Electronics: GATE 2019

54:04

Lecture 12: Power Flow in 3 Phase Full COnverter: Power Electronics: GATE 2019

01:25:44

Lecture 11: 3 Phase Full Wave Converter I: Power Electronics: GATE 2019

53:41

Lecture 10: 3 Phase half Controller Rectifier II: Power Electronics: GATE 2019

50:04

Lecture 9: 3 Phase half Controlled Rectifier I : Power Electronics: GATE 2019

01:20:34

Lecture 7: Single Phase Full wave Converter I: Power Electronics: GATE 2019

01:00:33

Lecture 6: Phase Controlled Rectifier III: Power Electronics: GATE 2019

49:56

Lecture 5: Phase Controlled Rectifier II: Power Electronics: GATE 2019

01:19:38

Lecture for GATE EE: Thyristor Basics

01:00:51

Transient in AC circuit

15:53

Lecture 20: Combination of two port Network: GATE 2019

01:55:21

Lecture 22: Questions on Network Theory: GATE 2019

40:47

Lecture 21: Question on DC transient 2: GATE 2019

21:17

Lecture 19: Two Port Netwrok Modification: GATE 2019

33:45

Lecture 18: h & g Parameter: GATE 2019

44:16

Lecture 17: Two Port Network Z parameter: GATE 2019

32:13

Lecture 16: 3 Phase Circuits: GATE 2019

21:24

Lecture 15: Star Delta Conversion: GATE 2019

01:12:41

Lecture 14: Phasor Diagram: GATE 2019

50:12

Lecture 13: Basic of AC circuit: GATE 2019

50:48

Lecture 12: GATE Type Questions on DC Transient: GATE 2019

19:30

Lecture 11: DC Transient Time Constant: GATE 2019

47:22

Lecture 10: DC Transient RC Circuit: GATE 2019

38:57

Lecture 9: DC Transient RL Circuit: GATE 2019

23:20

Lecture 8: DC Transient Pure Inductive Circuit: GATE 2019

48:38

Lecture 7: Maximum Power Transfer Theorem: GATE 2019

21:30

Lecture 6: Source Transformation: GATE 2019

52:04

Lecture 5: GATE type questions on Thevenin resistance:GATE 2019

51:38

Lecture 4: Network Theorem Thevenin Circuit: GATE 2019

39:03

Lecture 3: Questions on Thevenin Resistance: GATE 2019

01:01:21

Lec 12: Zero sequence impedence Diagram of 3 Phase Transformer

01:21:33

Lec 11: Symmetrical Component LECTURE FOR GATE EE

42:42

Lec 8: Single Line Diagram Lecture for GATE EE

01:18:11

Lecture 2: Thevenin Equivalent Resistance: GATE 2019

01:00:47

Lecture 1: Network Theorem Superposition: GATE 2019

17:25

Lec 7: change in base Per unit PU system