Electric Circuit Theory (II_I)

Electric Circuit Theory (II_I) Bachelor of Engineering(BE) videos According to syllabus of Institute of Engineering(IoE), Tribhuwan University (TU)

Intermediate 5 (5 Reviews ) 252 Students enrolled
Created by Mero School Last updated Mon, 31-May-2021 Nepali
What will I learn?
  • "After Completion of this Course, Students will get basics of Electric Circuit Theory (II_I) based on syllabus of IoE and will be able to secure good score in IoE exam."

Curriculum for this course
253 Lessons 53:57:00 H:M:S
1. Marks Distribution
1 Lessons 00:06:47 H:M:S
  • Marks Distribution of Electric Circuit Theory 00:06:47 Free
  • 1. contents of Network analysis of AC circuit and Dependent Sources 00:04:49 Free
  • 2. Introduction & Sources of Electrical Network 00:07:38 Free
  • 3. Nodal analysis (Type I) 00:11:24
  • 4. Nodal Analysis( Type II) 00:04:44
  • 5. Nodal Analysis (Type III) 00:07:26
  • 6. Nodal Analysis (Type IV) 00:04:44
  • 7. Nodal analysis (Numerical Example-1) 00:05:53
  • 8. Nodal analysis (Numerical Example-2) 00:04:36
  • 9. Nodal analysis (Numerical example-3) 00:08:20
  • 10. Mesh Analysis (Type I) 00:12:37
  • 11. Mesh Analysis (Type-II) 00:07:48
  • 12. Mesh analysis (Type III) 00:04:27
  • 13. Mesh analysis (Numerical Example-1) 00:06:50
  • 14. Mesh Analysis (Numerical Example-2) 00:06:37
  • 15. Mesh analysis (Numerical Example-3) 00:05:31
  • 16. Resonance in series RLC circuit 00:22:56
  • 17. Resonance in series RLC circuit (Numerical example-1) 00:04:22
  • 18. Resonance in series RLC circuit( Numerical example-2) 00:06:27
  • 19. Resonance in parallel RLC circuit 00:13:30
  • 20. Parallel RLC Circuit(Numerical Example) 00:06:35
  • 1. Introduction of Initial Condition 00:11:55
  • 2. Initial Condition For Inductor 00:11:25
  • 3. Initial Condition for Capacitor 00:13:27
  • 4. Voltage Current Relationship Of Different Circuit Element 00:05:05
  • 5. Numerical Example-1 00:09:52
  • 6. Numerical Example-2 00:18:01
  • 7. Numerical Example-3 00:15:51
  • 8. Numerical Example-4 00:05:47
  • 9. Numerical Example-5 00:13:51
  • 10. Numerical Example-6 00:09:10
  • 11. Numerical Example-7 00:08:30
  • 12. Numerical Example-8 00:16:26
  • 13. Numerical Example-9 00:12:28
  • 1. contents 00:06:07
  • 2. Introduction 00:09:21
  • 3. Solution Techniques of differential equations 00:11:33
  • 4. R-L series circuit with DC excitation 00:07:25
  • 5. Response of RL circuit with DC excitation (example-1) 00:08:49
  • 6. Responce of RL circuit with Exponential Excitation 00:14:09
  • 7. RL circuit with Exponential Excitation (example-2) 00:09:53
  • 8. RL circuit with Sinusoidal Excitation(example-3) 00:13:49
  • 9. RC circuit with DC excitation 00:05:08
  • 10. RC circuit with Exponential Excitation 00:14:14
  • 11. RC circuit with exponential excitation (example-4) 00:12:49
  • 12. RC circuit with Sinusoidal Excitation 00:12:41
  • 13. RC circuit with Sinusoidal Excitation(example-5) 00:16:48
  • 14. RLC circuit with dc excitation 00:20:01
  • 15. RLC circuit (example-6) 00:13:33
  • 16. RLC circuit (example-7) 00:12:19
  • 17. RLC circuit (example-8) 00:21:46
  • 18. RLC circuit (example-9) 00:16:44
  • 19. RLC with sinusoidal excitation (example-10) 00:20:09
  • 20. RLC circuit (example-11) 00:07:01
  • 21. RLC circuit Example-12 00:09:29
  • 22. RLC circuit Example-13 00:13:24
  • 23. RLC circuit example-14 00:22:57
  • 1. Introduction 00:03:38
  • 2. Some Important Formula 00:05:13
  • 3. Steps for solving any circuit by Laplace Transform 00:04:22
  • 4. Partial Fraction Expression 00:10:49
  • 5. Numerical example-1 00:09:18
  • 6. Numerical example-2 00:07:51
  • 7. Numerical example-3 00:12:41
  • 8. Numerical example-4 00:07:03
  • 9. RC circuit (Numerical example-5) 00:09:32
  • 10. RLC circuit (Numerical example-6) 00:14:59
  • 11. RLC circuit (Numerical Example-7) 00:14:37
  • 12. RL circuit (Numerical example-8) 00:10:45
  • 13. Numerical example-9 00:24:15
  • 14. Numerical example-10 00:09:41
  • 15. Numerical example-11 00:09:17
  • 16. Numerical example-12 00:09:36
  • 1. Introduction 00:06:45
  • 2. Network Function Formula 00:08:47
  • 3. Transfer impedence and admittance of different circuit 00:02:20
  • 4. Steps to find transfer function of given circuit and Numerical example-1 00:08:09
  • 5. Numerical Example-2 00:12:50
  • 6. Numerical Example-3 00:14:17
  • 7. Numerical Example-4 00:12:40
  • 8. Numerical Example-5 00:25:15
  • 9. Numerical Examle-6 00:14:41
  • 10. Numerical Example -7 00:16:59
  • 11. Bode Plot (Introduction) 00:05:53
  • 12. Bode Plot Example-1 00:40:20
  • 13. Bode plot Example-2 00:14:08
  • 14. Bode plot Example-3 00:26:46
  • 15. Bode Plot Example-4 00:22:42
  • 1. Introduction 00:06:50
  • 2. Trigonometric Form of fourier series 00:03:23
  • 3. Numerical Example -1 00:17:32
  • 4. Symmetry in Fourier Series 00:10:35
  • 5. Numerical Example-2 00:14:50
  • 6. Exponential Fourier Series 00:05:53
  • 7. Numerical Example-3 00:09:39
  • 8. Fourier Transform 00:03:55
  • 9. Numerical Example-4 00:18:29
  • 1. Contents 00:05:31
  • 2. Introduction 00:14:50
  • 3. Z-parameters Calculation 00:07:22
  • 4. Y-parameters calculation 00:06:18
  • 5. T-parameters calculation 00:07:36
  • 6. T'-parameters Calculation 00:06:01
  • 7. h-parameters calculation 00:05:45
  • 8. g-parameters calculation 00:07:02
  • 9. Condition for Reciprocity of Two Port Network 00:25:16
  • 10. Interconnection of Two port Network (Series) 00:12:48
  • 11. Interconnection of Two Port Network (Parallel) 00:12:06
  • 12. Interconnection of Two Port Network (cascade) 00:09:37
  • 13. Relationship between parameters 00:19:21
  • 14. Numerical Example 2 00:21:34
  • 15. Numerical example 3 00:16:39
  • 16. Numerical Example 4 00:13:43
  • 17. Numerical Example 5 00:13:50
  • 18. Numerical example 6 00:17:13
  • 19. Numerical example 7 00:13:37
  • 1. Chapter-1-Network Analysis of AC Circuit and Dependent Sources
    • 1. Introduction to Dependent Source 00:02:53
    • 2. Q1_Mesh Analysis 00:12:48
    • 3. Q2_Mesh Analysis 00:07:34
    • 4. Q3_Mesh Analysis 00:09:27
    • 5. Q4_Mesh Analysis 00:06:53
    • 6. Q5_Nodal Analysis 00:09:45
    • 7. Q6_Nodal Analysis 00:08:58
    • 8. Q7_Nodal Analysis 00:10:28
    • 9. Q8_Nodal Analysis 00:10:25
    • 10. Q9_Nodal Analysis 00:07:31
    • 11. Q10_Nodal Analysis 00:07:34
    • 12. Q11_Mesh Analysis 00:07:07
    • 13. Resonance in RLC series circuit 00:17:36
    • 14. Resonance curve and bandwidth RLC series circuit 00:12:59
    • 15. Quality Factor in RLC series circuit 00:03:09
    • 16. Resonance in RLC Parallel Circuit 00:23:11
    • 17. Quality Factor in RLC parallel circuit 00:02:30
    • 18. Formula for resonance numerical 00:04:10
    • 19. Q1_Resonance Numerical 00:07:14
    • 20. Q2_Resonance Numerical 00:05:45
    • 21. Q3_Resonance Numerical 00:06:13
    • 22. Q4_Resonance Numerical 00:03:39
    • 23. Q5_Resonance Numerical 00:03:17
    • 24. Q6_Resonance Numerical 00:03:17
    • 25. Q7_Resonance Numerical 00:05:24
    • 26. Q8_Resonance Numerical 00:03:55
    • 27. Q9_Resonance Numerical 00:09:12
    2. Chapter-2-Initial Conditions
    • 1. Introduction and Formula 00:14:36
    • 2. How to apply Continuity Equation 00:04:27
    • 3. Question 1 00:13:34
    • 4. Question 2 00:19:11
    • 5. Question 3 00:13:33
    • 6. Question 4 00:11:12
    • 7. Question 5 00:12:14
    • 8. Question 6 00:15:17
    • 9. Question 7 00:16:46
    • 10. Question 8 00:11:42
    • 11. Question 9 00:14:09
    • 12. Question 10 00:09:41
    • 13. Question 11 00:24:17
    • 14. Question 12 00:12:29
    3. Chapter-3-Transient analysis by direct solution method or classical method
    • 1. Introduction to Transient analysis in RLC circuit by direct solution 00:05:00
    • 2. Question 1 00:12:24
    • 3. Question 2 00:14:14
    • 4. Question 3 00:20:15
    • 5. Question 4 00:15:03
    • 6. Question 5 00:16:09
    • 7. Question 6 00:11:20
    • 8. Question 7 00:08:15
    • 9. Question 8 00:25:31
    • 10. Question 9 00:28:27
    • 11. Introduction to second order 00:13:02
    • 12. Question 10 00:20:54
    • 13. Question 11 00:32:26
    4. Chapter-4-Transient Analysis by Laplace Transform Method
    • 1. Introduction to Transient Analysis by Laplace Transform Method 00:26:40
    • 2. Question 1 00:22:50
    • 3. Question 2 00:14:56
    • 4. Question 3 00:18:51
    • 5. Question 4 00:16:11
    • 6. Question 5 00:15:01
    • 7. Question 6 00:15:26
    • 8. Question 7 00:21:06
    5. Chapter-5-Frequency Response of Network
    • 1. Introduction to Frequency Response of Network 00:18:26
    • 2. Q.1_Transfer function of two port Network 00:15:13
    • 3. Q.2_Transfer function of two port Network 00:11:45
    • 4. Q.3_Transfer function of two port Network 00:07:39
    • 5. Q.4_Transfer function of two port Network 00:16:44
    • 6. Q.5_Transfer function of two port Network 00:15:18
    • 7. Bode Plot Introduction 00:17:03
    • 8. Q.1_Bode plot 00:47:39
    • 9. Q.2_Bode plot 00:27:57
    • 10. Q.3_Bode plot 00:27:15
    6. Chapter-6-Fourier Series and Transform
    • 1. Introduction to Fourier Series and Transform 00:18:21
    • 2. Question 1 00:25:40
    • 3. Question 2 00:38:28
    • 4. Question 3 00:24:55
    • 5. Question 4 00:19:57
    1. 2073 Chaitra
    • Question 1 (a) 00:11:52
    • Question 1(b) 00:07:31
    • Question 2(a) 00:06:25
    • Question 2(b) 00:10:27
    • Question 3(a) 00:07:48
    • Question 3(b) 00:17:05
    • Question 4(a) 00:10:11
    • Question 4(b) 00:22:48
    • Question 4(c) 00:07:26
    • Question 5(a) 00:08:54
    • Question 5(b) 00:17:00
    2. 2074 Ashwin
    • Question 1(a) 00:11:13
    • Question 1(b) 00:07:49
    • Question 2(a) 00:05:46
    • Question 2(b) 00:18:20
    • Question 3(a) 00:07:01
    • Question 3(b) 00:30:53
    • Question 4(a) 00:21:59
    • Question 4(b) 00:22:00
    • Question 4(c) 00:06:41
    • Question 5(a) 00:16:00
    • Question 5(b) 00:10:06
    3. 2074 Chaitra
    • Question 1(a) 00:10:09
    • Question 1(b) 00:14:32
    • Question 2(a) 00:11:37
    • Question 2(b) 00:20:25
    • Question 3(a) 00:16:15
    • Question 3(b) 00:12:23
    • Question 4(a) 00:14:44
    • Question 4(b) 00:24:41
    • Question 5 (a) 00:22:17
    • Question no. 5(b) 00:10:48
    4. 2075 Ashwin
    • Question 1(a) 00:11:02
    • Question 1(b) 00:11:49
    • Question 2(a) 00:13:10
    • Question 2(b) 00:11:40
    • Question 3(a) 00:06:15
    • Question 3(b) 00:09:59
    • Question 4(a) 00:09:23
    • Question 4(b) 00:23:46
    • Question 5(a) 00:08:53
    • Question 5(b) 00:09:24
    5. 2076 Chaitra
    • Question 1(a) 00:07:37
    • Question 1(b) 00:09:09
    • Question 2(a) 00:08:42
    • Question 2(b) 00:15:41
    • Question 3(a) 00:07:02
    • Question 3(b) 00:11:41
    • Question 4(a) 00:12:36
    • Question 4(b) 00:12:24
    • Question 5(a) 00:11:10
    • Question 5(b) 00:26:10
    Requirements
    • "Students are required to have knowledge of Eelctric Circuit Theory and Basic Electric Engineering based on syllabus of IoE "
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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 basics of Network Analysis of AC Circuit(Dependent Source, Mesh Analysis, Nodal Analysis), Resonance in RLC Series Circuit along with Resonance Curve and Bandwidth, Quality Factor, and Resonance in RLC Parallel Circuit with Quality Factor. This course also includes Initial Condition, Transient Analysis in RLC Circuit(Direct Solution & Classical Method), Transient Analysis (Laplace Method), Two Port Network and Fourier Series & Transform with most frequently asked questions in final exam of BE along with fundamental theories, numerical solutions and list of formula. We strongly believe that, viewers will be benefited from these videos and the thirst of curiosity of viewers will be quenched! Feedbacks and suggestion to improve are always welcome and highly appreciated!

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