Fundamentals of Electrical Engineering by Prof. Debapriya Das
5.0
(5)
34 learners
What you'll learn
This course includes
- 35.5 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 64 lessons • 35.5 hours of video
Fundamentals of Electrical Engineering by Prof. Debapriya Das
64 lessons
• 35.5 hours
Fundamentals of Electrical Engineering by Prof. Debapriya Das
64 lessons
• 35.5 hours
- Lecture 01: Basic Concepts, Examples32:47
- Lecture 02: Basic Concepts, Examples (Contd.)39:30
- Lecture 03: Basic Concepts, Examples (Contd.)25:20
- Lecture 04: Basic Concepts, Examples (Contd.)35:03
- Lecture 05: Basic Laws33:21
- Lecture 06: Basic Laws (Contd.)34:29
- Lecture 07: Basic Laws (Contd.)34:25
- Lecture 08: Basic Laws (Contd.)34:49
- Lecture 09: Basic Laws (Contd.)29:59
- Lecture 10: Basic Laws (Contd.)33:06
- Lecture 11: Methods of Circuit Analysis33:14
- Lecture 12: Methods of Circuit Analysis (Contd.)31:12
- Lecture 13: Methods of Circuit Analysis (Contd.)29:46
- Lecture 14: Methods of Circuit Analysis (Contd.)32:29
- Lecture 15: Methods of Circuit Analysis (Contd.)32:36
- Lecture 16: Methods of Circuit Analysis (Contd.)33:21
- Lecture 17: Methods of Circuit Analysis (Contd.)32:47
- Lecture 18: Methods of Circuit Analysis (Contd.) and Circuit Theorems28:14
- Lecture 19: Circuit Theorems (Contd.)30:44
- Lecture 20: Circuit Theorems (Contd.)30:33
- Lecture 21: Circuit Theorems (Contd.)30:31
- Lecture 22: Circuit Theorems (Contd.)35:30
- Lecture 23: Circuit Theorems (Contd.)38:12
- Lecture 24: Circuit Theorems (Contd.)30:06
- Lecture 25: Circuit Theorems (Contd.) and Capacitors & Inductors33:37
- Lecture 26: Capacitors & Inductors (Contd.)34:16
- Lecture 27: Capacitors & Inductors (Contd.)32:27
- Lecture 28: Capacitors & Inductors (Contd.)33:26
- Lecture 29: First Order Circuits37:08
- Lecture 30: First Order Circuits (Contd.)31:22
- Lecture 31: First Order Circuits (Contd.)33:49
- Lecture 32: First Order Circuits (Contd.)31:16
- Lecture 33: First Order Circuits (Contd.)34:37
- Lecture 34: First Order Circuits (Contd.)35:03
- Lecture 35: First Order Circuits (Contd.)28:25
- Lecture 36: First Order Circuits (Contd.)32:46
- Lecture 37: Single phase AC circuits31:14
- Lecture 38: Single phase AC circuits (Contd.)37:40
- Lecture 39: Single phase AC circuits (Contd.)34:02
- Lecture 40: Single phase AC circuits (Contd.)35:08
- Lecture 41: Single phase AC circuits (Contd.)34:46
- Lecture 42: Single phase AC circuits (Contd.)40:12
- Lecture 43: Single phase AC circuits (Contd.)30:14
- Lecture 44: Resonance and Maximum Power Transfer Theorem34:33
- Lecture 45: Resonance and Maximum Power Transfer Theorem (Contd.)35:14
- Lecture 46: Resonance and Maximum Power Transfer Theorem (Contd.)37:37
- Lecture 47: Three phase circuits34:50
- Lecture 48: Three phase circuits (Contd.)32:20
- Lecture 49: Three phase circuits (Contd.)32:44
- Lecture 50: Three phase circuits (Contd.)37:27
- Lecture 51: Magnetic Circuits37:48
- Lecture 52: Magnetic Circuits (Contd.)38:19
- Lecture 53: Magnetic Circuits (Contd.)36:25
- Lecture 54: Single Phase Transformer32:38
- Lecture 55: Single Phase Transformer (Contd.)39:45
- Lecture 56: Single Phase Transformer (Contd.)33:00
- Lecture 57: Single Phase Transformer (Contd.)35:44
- Lecture 58: Three phase Induction Motors24:02
- Lecture 59: Three phase Induction Motors (Contd.)42:16
- Lecture 60: Three phase Induction Motors (Contd.)32:48
- Lecture 61: Three phase Induction Motors (Contd.)31:09
- Lecture 62: DC Motors36:59
- Lecture 63: DC Motors (Contd.)29:58
- Lecture 64: DC Motors (Contd.)29:06
