Numerical Methods

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

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Created by Mero School Last updated Thu, 25-Nov-2021 Nepali
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Curriculum for this course
184 Lessons 33:21:01 H:M:S
1. Marks distribution
1 Lessons 00:03:37 Hours
  • 1. Marks Distribution 00:03:37 Free
  • 1. Introduction and importance of N.M- 00:12:43 Free
  • 2. Approximation and error in computation 00:13:31 Free
  • 3. taylor series 00:15:29
  • 4. Newtons forward finite difference 00:10:07
  • 5. Newton backward difference 00:07:01
  • 6. newton central difference 00:07:23
  • 7. Newtons divided difference 00:10:36
  • 8. Difference, Shift and Differential operators 00:05:47
  • 9. Uses and importance of computer programming in N.M- 00:05:58
  • 1. introduction 00:11:27
  • 2. Bisection method 00:08:41
  • 3. Example no. 1 00:21:19
  • 4. Algorithm and pseudocode of bisection method-1 00:14:31
  • 5. Newton Raphson method 00:11:26
  • 6. Example no. 2 00:09:36
  • 7. Example no. 3 00:12:00
  • 8. Algorithm and pseudocodes for newton raphson method 00:13:29
  • 9. Regula falsi method 00:08:45
  • 10. Example no. 4 00:17:17
  • 11. Algorithm and pseudocode for regula falsi method 00:10:46
  • 12. Secant method 00:06:55
  • 13. Example no. 5 00:11:16
  • 14. Algorithm and pseudocode for secant method 00:08:24
  • 15. Fixed point iteration method 00:08:48
  • 16. Example no. 6 00:11:04
  • 17. Example no. 7 00:07:02
  • 18. Algorithm and pseudocode for fixed point iteration method 00:07:59
  • 1. Introduction and gauss elimination method 00:09:32
  • 2. Example no. 1 00:08:31
  • 3. Example no. 2 00:09:36
  • 4. partial pivoting 00:10:13
  • 5. Complete pivoting 00:10:47
  • 6. Gauss jordan method 00:10:30
  • 7. Example no. 3 00:07:08
  • 8. Example no. 4 00:14:50
  • 9. LU factorization 00:08:26
  • 10. Example no. 5 00:17:11
  • 11. Iterative method 00:08:57
  • 12. Example no. 6 00:16:48
  • 13. Example no. 7 00:08:12
  • 14. Eigen value and eigen vector 00:07:54
  • 15. power method- 00:13:51
  • 16. Example no. 8 00:27:20
  • 1. Introduction 00:10:06
  • 2. Newton forward interpolation formula 00:16:53
  • 3. Newton backward interpolation formula 00:14:57
  • 4. Example no. 1 00:18:16
  • 5. Newtons divided difference interpolation method -1 00:12:04
  • 6. Example no. 2 00:09:03
  • 7. Example no. 3 00:14:00
  • 8. central difference 00:16:04
  • 9. Stirlings formula -(1 & 2 ) 00:10:45
  • 10. Bessels formula-(1 & 2) 00:12:28
  • 11. Example no. 4 00:07:45
  • 12. Example no. 5 00:08:39
  • 13. Lagranges interpolation 00:12:40
  • 14. Example no. 6 00:06:07
  • 15. Example no. 7-(1&2) 00:09:21
  • 16. Example no. 8 00:06:43
  • 17. least square method 00:08:32
  • 18. Least square method for linear curve-(1&2) 00:10:14
  • 19. Example no. 9 00:13:29
  • 20. Reducible to linear form 00:05:41
  • 21. Example no. 10-(1&2) 00:16:12
  • 22. least square method for non linear curve 00:09:48
  • 23. Example no. 11-(1&2) 00:18:12
  • 24. Cubic spline-(1&2) 00:27:49
  • 25. Example no. 12 00:10:40
  • 1. introduction 00:09:13
  • 2. Newtons forward interpolation formula 00:09:55
  • 3. Newtons backward interpolation formula 00:07:38
  • 4. Stirlings method 00:08:42
  • 5. Example no. 1 00:12:40
  • 6. maxima and minima-(1&2) 00:09:07
  • 7. Example no. 2 00:14:20
  • 8. Newton-cotes quadrature formula-1 00:14:20
  • 9. Tapezoidal and simpsons rule 00:22:55
  • 10. Example no. 3 00:09:25
  • 11. Romberg's method 00:11:08
  • 12. Example no. 4 00:10:51
  • 13. Gaussian integration 00:15:42
  • 14. Example no. 5 00:04:05
  • 15. Example no. 6 00:04:06
  • 1. Introduction 00:16:19
  • 2. Eulers method 00:10:39
  • 3. Example no. 1 00:11:51
  • 4. Modified eulers method 00:05:04
  • 5. Example no. 2 00:10:52
  • 6. Runge kutta method-1 00:17:30
  • 7. Example no. 3 00:12:23
  • 8. Example no. 4 00:10:52
  • 9. Solution of simultaneous ordinary differential equation 00:05:00
  • 10. Example no. 5 00:12:20
  • 11. RK method for second order differential equation 00:05:07
  • 12. Example no. 6- 00:08:42
  • 13. Boundary value problem by Finite difference method 00:13:31
  • 14. Example no. 7 00:12:59
  • 15. Example no. 7 00:24:16
  • 16. Shooting method 00:08:27
  • 17. Example no. 8 00:10:01
  • 18. pseudocode for Eulers method 00:06:17
  • 19. pseudocode for Rk4 method to solve first order equation 00:07:47
  • 20. pseudocode for Rk4 method to solve second order equation 00:08:31
  • 1. Introduction 00:10:14
  • 2. Example no. 1 00:10:27
  • 3. Finite difference Approximation to partial derivative- 00:11:51
  • 4. Elliptical Equations 00:06:44
  • 5. Solution of laplace equation-1 00:21:14
  • 6. Example no. 2 00:29:02
  • 7. Example no. 3 00:19:53
  • 8. Solution of Poissons equation 00:17:56
  • 9. Example no. 4 00:17:28
  • 10. Relaxation method 00:28:24
  • 11. Example no. 5 00:25:30
  • 12. SOlution of one dimension heat equation 00:06:32
  • 13. Example no. 6 00:08:29
  • 1. Bisection method 00:18:15
  • 2. Newton Raphson method 00:14:02
  • 3. Regula falsi method 00:11:09
  • 4. Fixed point iteration method 00:08:33
  • 5. Gauss elimination method 00:22:23
  • 6. Gauss jordan method 00:10:56
  • 7 Gauss seidel emthod and jacobi method 00:10:20
  • 8. Eulers method 00:07:11
  • 9. Rk4 method 00:08:04
  • 1. 2075 Chaitra
    • 1. Q no..1 00:04:27
    • 2. Q no. 2 00:13:57
    • 3. Q no. 3 00:07:30
    • 4. Q no. 4 00:09:34
    • 5. Q no. 5 00:08:07
    • 6. Q no. 6 00:10:17
    • 7. Q no. 7 00:08:57
    • 8. Q no. 8 00:01:00
    • 9. Q no. 9 00:08:41
    • 10. Q no. 10 00:05:45
    • 11. Q no. 11 00:08:40
    • 12. Q no. 12 00:10:31
    2. 2076 Bhadra
    • 1. Q no 1 00:00:53
    • 2. Q no. 2 00:18:50
    • 3. Q no. 3 00:00:43
    • 4. Q no. 4 00:11:09
    • 5. Q no. 5 00:08:22
    • 6. Q no. 6 00:18:33
    • 7. Q no. 7 00:08:16
    • 8. Q no. 8 00:04:06
    • 9. Q no. 9 00:05:23
    • 10. Q no. 10 00:09:24
    • 11. Q no. 11 00:15:36
    • 12. Q no. 12 00:21:13
    3. 2076 Chaitra
    • 1. Q no. 1 and Q no. 2 00:01:06
    • 2. Q no. 3 00:07:12
    • 3. Q no. 4 00:10:51
    • 4. Q no. 5 00:07:35
    • 5. Q no. 6 00:10:11
    • 6. Q no. 7 00:09:55
    • 7. Q no. 8 00:04:53
    • 8. Q no. 9 and Q no. 10 00:01:03
    • 9. Q no. 11 00:08:40
    • 10. Q no. 12 00:00:49
    4. 2077 Chaitra
    • 1. Q no. 1 00:00:51
    • 2. Q no. 1 00:11:47
    • 3. Q no. 3 00:00:42
    • 4. Q no. 4 00:00:45
    • 5. Q no. 5 00:10:47
    • 6. Q no, 6 00:14:13
    • 7. Q no. 7 00:09:50
    • 8. Q no. 8 00:07:39
    • 9. Q no. 9 00:07:10
    • 10. Q no. 10 00:00:55
    • 11. Q no. 11 00:12:51
    • 12. Q no. 12 00:18:17
    5. 2078 Baishakh
    • 1. Q. no. 1 00:01:49
    • 2. Qno. 2 00:15:08
    • 3. Q no. 3 00:12:47
    • 4. Qno. 4 00:14:42
    • 5. Q no 5 00:13:32
    • 6. Qno 6 00:16:49
    • 7. Qno 7 00:14:04
    • 8. Q no. 8 00:08:32
    • 9. Q no. 9 00:01:06
    • 10. Q no 10 00:16:03
    • 11. Q no 11 00:09:08
    • 12. Q no. 12 00:01:28
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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 Numerical Methods with solution of most frequently asked questions in final exam of BE. 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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