Dr. Ileana C. Carpen

0. Syllabus

1. Lecture 1

2. Lecture 2

3. Lecture 3 (Intro to presentations)

4. Lecture 4 (updated)

5. Assignment 1

6. Lecture 5 (updated)

7. Lecture 6 (updated)

8. Lecture 7

9. Lecture 8 (updated)

10. Lecture 9 (updated)

11. Policies (addendum to syllabus)

12. Lab 1 Guidelines

13. Assignment 2

14. Lecture 10 (updated)

15. Lecture 11 (updated)

16. Lecture 12 (updated)

17. Assignment 3

18. Lecture 13 (updated)

19. Lecture 13 part 2 (afternoon)

20. Assignment 1 Key (updated)

21. Assignment 2 notes (Tony)

22. Assignment 2 Key

23. General lab report requirements

24. Additional lab 1 report instructions

25. Lecture 14

26. Assignment 3 corrections

27. Individual project deadlines

28. Project presentation rubric

29. First project deadline

30. Lab 2 Guidelines

31. Lecture 16 (updated)

32. Lecture 17 (updated)

33. Assignment 4

34. Semi-infinite slab (similarity solution) from Fundamental Principles of Heat Transfer by Stephen Whitaker (Krieger Publishing)

35. Lecture 18 (updated)

36. Buckingham’s Pi theorem handout

37. Lecture 19

38. Lecture 20

39. Lecture 21 (updated)

39. Lecture 22

40. Lecture 23 (updated)

41. Lecture 24 (updated)

42. Lecture 25

43. Lecture 26 (updated)

44. Radiation reference #1 and radiation reference #2 from Fundamentals of Heat and Mass Transfer by Incropera, DeWitt, Bergman, and Lavine (Wiley, 6th ed.)

45. Assignment 5

46. Lecture 27 (updated)

47. Review session

48. Assignment 5 Key

49. Lecture 28

50. Report guidelines and IEEE author guidelines

51. Lecture 29 (updated)

52. Math requirements survey

53. First lab example comments

54. Lecture 30 (updated)

55. Lecture 31 (updated)

56. Assignment 6

57. Assignment 6 Key

58. Assignment 3 Key

59. Assignment 4 Key

60. Exam 2 Key (partial)

61. Final exam review notes (partial)

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