Consider steady two-dimensional heat transfer in a long solid body whosecross section is given in the figure below. The temperatures at the selected nodes andthe thermal conditions at the boundaries. The thermal conductivity of the body is k =45 W/m °C, and heat is generated in the body uniformly at a rate of g. = 6 × 106W/m³. Using the finite difference method with a mesh size of Ax-Ay•determine (a) the temperatures at nodes 1, 2, and 3= 5.0 cm,n360305350°C200°C5 cm310Convection2T-30°C. & 50 W/m². C325

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Answered: Consider steady two-dimensional heat…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Consider a long bar of rectangular cross section (60 mm by 90 mm on a side) and of thermal conductivity 1 W/m-K. The top surface is exposed to a convection process with air at 100°C and a convection heat transfer coefficient of 100 W/m2.K, while the remaining surfaces are maintained at 50°C. Use a grid spacing of 30 mm and the Gauss-Seidel iteration method to solve the problem. Take an initial estimate of 0°C for all the nodal temperatures and ɛ < 0.35°C convergence criterion. T = 100°C h = 100 W/m2-K Fluid 1 T = 50°C 2 Ay = 30 mm 3 T = 50°C Ax = 30 mm T = 50°C What is the temperature of Node 2? (Note: Round off the answer up to 2 decimal places.) T2 = 51.45 °C
no previous attempt please
The steady-state temperature distribution in a one-dimensional wall of thermal conductivity 50 W/m -K and thickness 50 mm is observed to be T(°C) = a + bx, where a = 200 °C, b=-2000 °C/m², and x is in meters. i. ii. What is the heat generation rate in the wall? (8) Determine the heat fluxes at the two wall faces. In what manner are these heat fluxes related to the heat generation rate? (
Please solve quickly
2. The slab shown is embedded in insulating materials on five sides, while the front face experiences convection off its face. Heat is generated inside the material by an exothermic reaction equal to 1.0 kW/m'. The thermal conductivity of the slab is 0.2 W/mk. a. Simplify the heat conduction equation and integrate the resulting ID steady form of to find the temperature distribution of the slab, T(x). b. Present the temperature of the front and back faces of the slab. n-20- 10 cm IT- 25°C) 100 cm 100 cm
10.The layout of a wall and the heat transfer parameters are shown in the figure below. Find the internal temperature of the wall, T₁. (o= 5.67 x 10-8 W/m²K4 ) (Ans: 569.5K) T1 k=1.1 W/m.K Icond L=0.12m T2=373K x=0.7 grad Iconv Tsur Air Tex = 300K h = = 290K : 18 W/m².K

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