Consider two-dimensional steady-state heat conduction in a rectangular region of cross-section 2L by 3L subject to boundary conditions shown below. By using a mesh size deltax = deltay = L, write the finite difference equations for this problem, and calculate the node temperatures T1, T2, T3 and T4.
Consider two-dimensional steady-state heat conduction in a rectangular region of cross-section 2L by 3L subject to...
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...
Computer assignment Computer assignment Consider two dimensional, steady state conduction in a square cross section. Discretization is as shown Δx=Δy Requires 1- determine temperature at node 1 through 16. 2-determine heat transfer rates. 3-determine location and value of T"max" 4-check energy balance. The details for boundary conditions in the picture Need code written in EES ( engineering equation solver) Will be helpful if there is: Mathematical formulation and Numerical solution procedure. Thanks
Problem#01: prescribed surface temperatures. Consider two-dimensional, steady-state condition in a square cross section with a) Determine the temperature at nodes 1, 2, 3, and 4 b) Estimate the midpoint temperaturebwen 1,2,3 d dyz1D cm-po.lm100 a)do it in Four steps teach Tem. 50"C 123, 1