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CFD Mentorship program: Batch2

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  1. Some general instructions
  2. Week1 (Day 1): Introduction
  3. Week1 (Day 2) : Fluid Dynamics essential for CFD-Part1
  4. Week2 (Day1): Introduction to MATLAB
  5. Week 2 (Day2): Fluid Dynamics essential for CFD-Part2
  6. Week 3 (Day1): MATLAB- Part2
  7. Week 3(Day2): Fluid Dynamics Essential for CFD-Part3
  8. Week4 (Day1): MATLAB- Part3
  9. Week4 (Day2): Thermodynamics- Part 1
  10. Week5 (Day1): Thermodynamics- Part2
  11. Week 5 (Day2): Thermodynamics- Part3
  12. Week6 (Day1): MATLAB-Part3
  13. Week6 (Day2): MATLAB-Part4
  14. Week 7(Day1): Heat Transfer for CFD
  15. Week 7 (Day2): MATLAB- Part 5
  16. Week 8 (day1) MATLAB programming
  17. Week 8 (day2): MATLAB Programming
  18. Week 9 (day1): Special Session on LBM by SankyasutraLabs
  19. Week 9 (day2) : Essential Mathematics part1
  20. Week 10 (day1): MATLAB and Linear Algebra
  21. Week 10 (day2): MATLAB Final session
  22. Week 11 (Day1): Introduction to Python
  23. Week 11 (Day2): Python Contd ..
  24. Week 12 (Day1): Maths Part 2
  25. Week 12 (day2): Structured Meshing: Concept of Blocking
  26. Week 13 (day1): Python programming
  27. Week 13 (day2): Python Programming
  28. Module 2: FDM

    Week 14 (day1): FDM-Part1
  29. Week 14 (day2) FDM-Part2
  30. Week 15 (day1) FDM Part3
  31. ANSYS Tools: Introduction
    Week 15 (day2): ANSYS Tools Space Claim
  32. Next 3 weeks: Compressible flow workshop (watch the recordings as separate course)
  33. Week 16 (day1): ANSYS Fluent Intro-Meshing
  34. Week 16 (day2)
  35. Week 17(day1): Fluent practice
  36. Week 17(day2): Fluent practice
  37. OpenFOAM
    Week18(day1): OpenFOAM Part1
  38. Week18(day2)- Wings to your future- Talk on career development
  39. Week19(day1)- OpenFOAM Part2
  40. Week19(day2)- OpenFOAM Part3
  41. Week20(day1)
Lesson 42 of 41
In Progress

Week 9 (Day2): Governing Equation, Taylor series and FDM Copy

19.03.2023
Topic: Governing Equations, Taylor Series and FDM

Assignment Week 9 Day 2:
Prepare a MATLAB code for solving the 1D heat equation for a steady-state problem. (1) T base = 20C and Ttip =60 C and (2) T base =30C and Tip insulated. Prepare a good report along with plots and your code in the appendix.

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