Basic Electrical Engineering

Basic Electrical Engineering Bachelor of Engineering(BE) videos According to syllabus of Institute of Engineering(IoE), Tribhuwan University (TU)

Advanced 5 (2 Reviews ) 29 Students enrolled
Created by Mero School Last updated Tue, 07-Sep-2021 Nepali
What will I learn?

Curriculum for this course
161 Lessons 22:00:29 H:M:S
1. Introduction to Course
1 Lessons 00:02:24 Hours
  • 1. Course Introduction 00:02:24 Free
  • 1. Constituent parts of an electrical system 00:02:52 Free
  • 2. Electrical Current 00:05:55 Free
  • 3. Ohm's Law 00:03:44
  • 4. Resistance, Resistors & Resistivity 00:02:13
  • 5. Potential Difference & Electromotive Force 00:03:36
  • 6. Temperature Coefficient of Resistance (α) 00:06:07
  • 7. Relation Between α1 & α2 00:05:39
  • 8. Ideal & Practical Voltage Source 00:07:13
  • 9. Ideal & Practical Current Source 00:06:40
  • 10. Source Transformation 00:03:20
  • 11. Formulas 00:02:20
  • 12. Numerical 1 00:09:14
  • 13. Numerical 2 00:06:09
  • 14. Numerical 3 00:10:36
  • 15. Numerical 4 00:06:53
  • 16. Numerical 5 00:05:41
  • 17. Numerical 6 00:07:09
  • 18. Numerical 7 00:07:49
  • 19. Numerical 8 00:04:23
  • 20. Numerical 9 00:02:16
  • 21. Numerical 10 00:05:39
  • 22. Numerical 11 00:10:04
  • 23. Numerical 12 00:10:02
  • 24. Numerical 13 00:06:49
  • 25. Numerical 14 00:03:46
  • 26. Numerical 15 00:04:03
  • 27. Numerical 16 00:05:42
  • 28. Numerical 17 00:06:47
  • 29. Numerical 18 00:08:07
  • 30. Numerical 19 00:05:23
  • 31. Numerical 20 00:04:56
  • 32. Numerical 21 00:07:09
  • 33. Numerical 22 00:07:07
  • 34. Numerical 23 00:05:00
  • 35. Numerical 24 00:03:28
  • 1. DC Circiit & DC Series Circuit 00:06:37
  • 2. DC Parallel Circuit 00:03:55
  • 3. Difference between Series & Parallel Circuit 00:03:49
  • 4. Voltage Divider Rule 00:03:40
  • 5. Current Divider Rule 00:06:02
  • 6. Kirchhoff's Law 00:05:21
  • 7. Sign Rules for KVL 00:04:24
  • 8. Numerical 1 00:05:32
  • 9. Numerical 2 00:05:17
  • 10. Numerical 3 00:10:44
  • 11. Numerical 4 00:08:20
  • 12. Numerical 5 00:09:23
  • 13. Numerical 6 00:05:57
  • 1. Chapter 3 Network Theorem (Introduction) 00:05:43
  • 2. Numerical 1 (Nodal and Mesh Analysis) 00:15:20
  • 3. Numerical 2 (Nodal and Mesh Analysis) 00:16:48
  • 4. Numerical 3 (Nodal and Mesh Analysis) 00:10:34
  • 5. Numerical 4 (Nodal and Mesh Analysis) 00:10:59
  • 6. Numerical 5 (Nodal and Mesh Analysis) 00:08:06
  • 7. Numerical 6 (Nodal and Mesh Analysis) 00:08:00
  • 8. Numerical 7 (Nodal and Mesh Analysis) 00:13:21
  • 9. Star-Delta & Delta-Star Transformation (Theory) 00:13:43
  • 10. Numerical 1 (Star -delta) 00:07:40
  • 11. Numerical 2 (Star -delta) 00:06:42
  • 12. Numerical 3 (Star -delta) 00:05:46
  • 13. Numerical 4 (Star-delta) 00:11:54
  • 14. Numerical 1 (Superposition Theorem) 00:06:04
  • 15. Numerical 2 (Superposition Theorem) 00:11:32
  • 16. Numerical 3 (Superposition Theorem) 00:09:03
  • 17. Numerical 4 (Superposition Theorem) 00:04:46
  • 18. Numerical 5 (Superposition Theorem) 00:08:27
  • 19. Thevenin's Theorem (Theory) 00:06:52
  • 20. Numerical 1 (Thevenin's Theorem) 00:06:27
  • 21. Numerical 2 (Thevenin's Theorem) 00:05:22
  • 22. Numerical 3 (Thevenin's Theorem) 00:05:52
  • 23. Numerical 4 (Thevenin's Theorem) 00:13:05
  • 24. Numerical 5 (Thevenin's Theorem) 00:07:58
  • 25. Numerical 6 (Thevenin's Theorem) 00:04:11
  • 26. Norton's Theorem (Theory) 00:06:34
  • 27. Numerical 1 (Norton's Theorem) 00:09:56
  • 28. Numerical 2 (Norton's Theorem) 00:05:31
  • 29. Numerical 3 (Norton's Theorem) 00:14:34
  • 30. Numerical 4 (Norton's Theorem) 00:11:34
  • 31. Numerical 5 (Norton's Theorem) 00:07:50
  • 32. Maximum Power Transfer Theorem (Theory) 00:07:37
  • 33. Numerical 1 (Maximum Power Transfer Theorem) 00:11:01
  • 34. Numerical 2 (Maximum Power Transfer Theorem) 00:11:35
  • 35. Numerical 3 (Maximum Power Transfer Theorem) 00:06:00
  • 36. Numerical 4 (Maximum Power Transfer Theorem) 00:07:42
  • 37. Numerical 5 (Maximum Power Transfer Theorem) 00:06:59
  • 38. Numerical 1 ( Reciprocity Theorem) 00:11:13
  • 1. Capacitor and capacitance 00:09:10
  • 2. Energy stored in capacitor 00:06:00
  • 3. Combination of capacitors 00:07:22
  • 4. Inductance 00:09:37
  • 5. Energy stored in an inductor 00:02:54
  • 6. Magnetic coupling 00:02:38
  • 7. Inductor in series 00:08:57
  • 8. Introduction to fromula 00:04:10
  • 9. Numerical 1 00:04:10
  • 10. Numerical 2 00:04:22
  • 11. Numerical 3 00:04:41
  • 12. Numerical 4 00:04:22
  • 13. Numerical 5 00:03:37
  • 14. Numerical 6 00:03:19
  • 15. Numerical 7 00:05:30
  • 16. Numerical 8 00:09:33
  • 17. Numerical 9 00:10:04
  • 18. Numerical 10 00:07:23
  • 19. Numerical 11 00:05:12
  • 20. Numerical 12 00:05:30
  • 21. Numerical 13 00:10:39
  • 22. Numerical 14 00:04:26
  • 1. Alternating Quantities 00:05:59
  • 2. Average & RMS Value of Alternating Quantities 00:07:42
  • 3. Phase Difference & Phasor Diagram 00:08:14
  • 4. Numerical 1 ( Alternating Quantities) 00:06:47
  • 5. Numerical 2 ( Alternating Quantities) 00:07:25
  • 6. Numerical 3 ( Alternating Quantities) 00:08:26
  • 7. Numerical 4 ( Alternating Quantities) 00:06:58
  • 8. Numerical 5 (Alternating Quantities) 00:06:20
  • 9. Numerical 6 ( Alternating Quantities) 00:05:02
  • 10. Numerical 7 ( Alternating Quantities) 00:07:14
  • 11. Numerical 8 (Alternating Quantities) 00:10:56
  • 12. Numerical 9 (Adding Alternating Quantities) 00:19:45
  • 13. Numerical 10 (Adding Alternating Quantities) 00:11:02
  • 1. AC through Pure Resistor 00:09:58
  • 2. AC through Pure Inductor 00:12:09
  • 3. AC Through Pure Capacitor 00:12:26
  • 4. Impedance & Admittance 00:21:10
  • 5. AC Through RL Series Circuit 00:20:41
  • 6. Power in RL Series Circuit 00:11:24
  • 7. AC Through RC Series Circuit 00:22:05
  • 8. AC Through RLC Series Circuit 00:21:46
  • 9. AC Parallel Circuit 00:14:48
  • 10. Complex Power 00:03:29
  • 11. Power Factor & It's Correction 00:04:29
  • 12. Power Factor Improvement 00:13:44
  • 13. Numerical 1 00:05:19
  • 14. Numerical 2 00:12:07
  • 15. Numerical 3 00:05:56
  • 16. Numerical 4 00:07:16
  • 17. Numerical 5 00:10:18
  • 18. Numerical 6 00:11:08
  • 19. Numerical 7 00:06:41
  • 20. Numerical 8 00:05:40
  • 21. Numerical 9 00:10:36
  • 22. Numerical 10 00:06:26
  • 23. Numerical 11 00:07:17
  • 1. Generation of Three Phase Supply 00:14:12
  • 2. Star Connection 00:06:40
  • 3. Delta Connection 00:04:53
  • 4. VOLTAGE, CURRENT & POWER RELATION IN 3 PHASE STAR CONNECTED BALANCED SYSTEM 00:18:30
  • 5. VOLTAGE, CURRENT & POWER RELATION IN 3 PHASE DELTA CONNECTED BALANCED SYSTEM 00:11:06
  • 6. Dynamometer Wattmeter 00:12:30
  • 7. POWER MEASUREMENT IN 1-∅ SYSTEM BY WATTMETER 00:03:04
  • 8. POWER MEASUREMENT IN 3-∅ SYSTEM BY 2 WATTMETER METHOD 00:18:32
  • 9. Effect of Power Factor on Wattmeter Reading 00:08:11
  • 10. Numerical 1 00:11:58
  • 11. Numerical 2 00:14:16
  • 12. Numerical 3 00:13:44
  • 13. Numerical 4 00:07:43
  • 14. Numerical 5 00:14:33
  • 15. Numerical 6 00:11:50
  • 16. Numerical 7 00:17:34
  • Requirements
    • Students are required to have at least little knowledge about Electrical Engineering.
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    Description

    The videos herein are strictly based on syllabus of Institute of Engineering Tribhuwan University, Nepal promoting "e-Learning in Nepal" and are made with intention to provide guidance to the "Bachelor in Engineering(BE) appearing students", for securing good results. The course tries to cover all the lessons of Basic Electrical Engineering and also include the frequently asked numericals with its solutions. We strongly believe that, viewers will be benefited from these videos and the thrist of curiosity of viewers will be quenched! Feedbacks and suggestion to improve are always welcome and highly appreciated!

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