Weeks | Topics |
1 |
Principles of heat transfer
|
2 |
Lumped, integral and differential formulations of conservation laws
|
3 |
Lumped, integral and differential formulations of conservation laws. Initial and boundary conditions.
|
4 |
Bessel functions. Steady one dimensional heat conduction problems; extended surfaces.
|
5 |
Bessel functions. Steady one dimensional heat conduction problems; extended surfaces.
|
6 |
Steady 2 and 3D heat conduction. Separation of variables. Orthogonal functions.
|
7 |
Steady 2 and 3D heat conduction. Separation of variables. Orthogonal functions.
|
8 |
Midterm exam.
|
9 |
Steady 2 and 3D heat conduction. Separation of variables. Orthogonal functions.
|
10 |
Transient heat conduction. Separation of variables. Orthogonal functions.
|
11 |
Transient heat conduction. Separation of variables. Orthogonal functions.
|
12 |
Transient heat conduction. Laplace transforms.
|
13 |
Transient heat conduction. Laplace transforms.
|
14 |
Transient heat conduction. Laplace transforms.
|