Problem 2(30 points) Consider the steady-state temperature distribution in a square plate with dimensions 2 m...
9. Find the steady-state temperature distribution in the plate shown below y= x и —D () insulated и 3D Т 1/2 1 и 3D 0 9. Find the steady-state temperature distribution in the plate shown below y= x и —D () insulated и 3D Т 1/2 1 и 3D 0
ncat transfer system. Question 3-30 points The steady-state temperature distribution in a one-dimensional wall of 20 W/m-K and thickness L 20 cm is of the form T(x) Ax Bx +Cx + D, where A 20 Crn, B-l 50°C/㎡, C =-120°C/m, D-200 ℃ Find (i) the heat generation rate per unit thermal conductivity, k
need help with c and d Consider two-dimensional, steady-state conduction in a square cross section with prescribed surface temperatures shown in the figure. 2) 100°C a) Determine the temperatures at nodes 1, 2, 3, and 4 Estimate the midpoint temperature. Reducing the mesh size by a factor of 2, determine the corresponding nodal temperatures. Compare your results with those from the coarser grid. b) 50°C 200°c c) If the body generates heat at a rate of 20,000 W/m determine the...
3. (20 points) Denote u(ar, y) the steady-state temperature in a rectangle area 0 z 10, 0yS 1. Find the temperature in the rectangle if the temperature on the up side is kept at 0°, the lower side at 10° while the temperature on the left side is S0)= sin(y) and the right side is insulated. Answer the following questions. (a) (10 points) Write the Dirichlet problem including the Laplace's equation in two dimensions and the boundary conditions. (b) (10...
20) Me Steady-state temperature distribution in the s figure. The heat flow is one-dimensional. ibution in the sandwich of three materials (A, B, and C) is shown in the aterial B has volumetric heat generation à = 64,000 W/m. Material A has thermal conductivity of 10 W/ m K . Determine: a) The heat flux at the left side: b) The heat flux at the right side: c) The thermal conductivity of Material C: : - W/m2 W/m2 _W/mK T[deg.]...
Steady, 2-D conduction takes place in a rectangular solid having height (in the y-direction), H, and width (in the X-direction), W. The bottom of the rectangle, from x-0 to x=W, is insulated. The left boundary, x0, 0 s ys H, is held at a temperature of 500 K, as is the top boundary, y=H, 0 sxs W. The right boundary, x=W and0 Sys H, has a steady temperature distribution given by TOy,x W) 500 (1-sin(ny/H) Find the temperature distribution, T(x,...
Steady, 2-D conduction takes place in a rectangular solid having height (in the y-direction), H, and width (in the X-direction), W. The bottom of the rectangle, from x-0 to x-W, is insulated. The left boundary, x0, 0 ys H, is held at a temperature of 500 K, as is the top boundary, y=H, 0 sxs W. The right boundary, x=W and0 Sys H, has a steady temperature distribution given by TOy,x W) 500 (1-sin(ny/H) Find the temperature distribution, T(x, y),...
Steady, 2-D conduction takes place in a rectangular solid having height (in the y-direction), H, and width (in the X-direction), W. The bottom of the rectangle, from x-0 to x-W, is insulated. The left boundary, x0, 0 ys H, is held at a temperature of 500 K, as is the top boundary, y=H, 0 sxs W. The right boundary, x=W and0 Sys H, has a steady temperature distribution given by TOy,x W) 500 (1-sin(ny/H) Find the temperature distribution, T(x, y),...
3. (7 points) Let u(x, y) be the steady-state temperature u(r, y) in a rectangular plate whose vertical r0 and 2 are insulated. When no heat escapes, we have to solve the following the boundary value problem: a(z,0) = 0, u(z,2) = x, 0 < x < 2 (a) By setting u(x, g) -X(x)Y(u), separate the equation into two ODE 0 What ane the sewr homdany condiome hoald Xe) watiy (37)2. (c) Find x(r) for the case when λ-0 and...
Steady, 2-D conduction takes place in a rectangular solid having height (in the y-direction), H, and width (in the X-direction), W. The bottom of the rectangle, from x=0 to x-W, is insulated. The left boundary x-0, 0 y s H, is held at a temperature of 500 K, as is the top boundary, y=H, 0 s x sW. The right boundary, x=W and 0 Sys H, has a steady temperature distribution given by Ty,x W) 500 (1-sin(ny/H) Find the temperature...