[Solved] MAE 290C HOMEWORK 4

Whatsapp Us

Scan or Click here to open the chat!%s

[Solved] MAE 290C HOMEWORK 4

$25

File Name: MAE_290C_HOMEWORK_4.zip
File Size: 178.98 KB

SKU: [Solved] MAE 290C HOMEWORK 4 Category: Tag:
5/5 - (1 vote)

Integrate numerically the linear wave equation

tu + cxu = 0,

in the domain 0 x < 10 with homogeneous initial conditions and u(x = 0,t) = sin(At) Solve using secondorder centered finite difference schemes with N = 200 grid points, t = 0.01 and the following boundary conditions at the artificial exit:

  1. Homogeneous boundary conditions, uN = 0.
  2. Linear extrapolating boundary conditions, uN = 2uN1 uN2.
  3. Quadratic extrapolating boundary conditions, uN = 3uN1 3uN2 + uN3.
  4. Homogeneous Neumann boundary conditions, uN = uN1.
  5. Antisymmetric boundary conditions, uN = uN1.
  6. First-order upwinding convective boundary conditions,

.

  1. Second-order upwinding convective boundary conditions,

.

Perform an analytical study of the reflection of waves generated by the each scheme at the artificial boundary and discuss the results obtained for A = 0.1 and A = 3. Compare your numerical results with the analysis of each boundary condition.

Reviews

There are no reviews yet.

Only logged in customers who have purchased this product may leave a review.

Related products

Shopping Cart
[Solved] MAE 290C HOMEWORK 4[Solved] MAE 290C HOMEWORK 4
$25