Four infinite, parallel, black, opaque plates transfer heat by radiation as shown in figure 1.19. Find T2 and T3 [T2= 75.53°C]. This is a heat transfer problem from the textbook A Heat Transfer Textbook fifth edition

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Figure 1.18 Configuration for Problem 1.14 Figure 1.19 Configuration for Problem 1.15 100°C 100°C 1 2 3 4 -0°C Problems 0°C q maintained at 20°C. a. Write a differential equatio assuming the lumped the b. Divide the radiation he find a "radiation heat dimensionless group, indicates whether the c. Show that the lumpe d. Integrate your differ response for the sp 1.18 A small instrumentation It can be approximated eter. The sphere is in hydrogen component If we approximate ou mentation package lumped-capacity me for Problem 1.17. 1.16 Two large, black, horizontal plates are spaced a distance li one another. The top one is warm at a controllable tempera Th, and the bottom one is cool at a specified temperature, gas separates them. The gas is at rest because it is warm dense) toward the top and cold (more dense) toward the bott Let Th/Tc, and write an equation for the ratio of radia to conduction heat flux through between the plates, qrad/ fn (N, O), where N is a dimensionless group containing σ, kL1 Tc, which you will identify. a. Plot N as a function of T= 200°C 1.19 Consider Calculate