Consider a large uranium plate of thickness L = 4 cm and thermal conductivity k 28 W/m-°C in which heat is generated uniformly at a constant rate of e, = 6 x106 W/m. One side of the plate is maintained at 0°C by iced water while the other side is subjected to convection to an environment at T = 30°C with a heat transfer coefficient of h= 45 W/m2 -°C. Using the finite difference method with three equally spaced nodes in the medium, two at the boundaries and one at the middle, the following algebraic equations are obtained: 271-T2= 85.7 (in °C) T1-1.032T, =– 43.8 (in °C) Determine the exposed surface temperature of the plate T2 under steady conditions. Uranium plate G Wi-Fi Turned off 0°C k = 28 W/m-K eg = 6x 106 W/m3 Network & Internet settings Change settings, such as making a connection metered. 10 2 Mobile

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stion 16 4 points Save Answer Consider a large uranium plate of thickness L = 4 cm and thermal conductivity k= 28 W/m-°C in which heat is generated uniformly at a constant rate of e, = 6 x106 W/m³. One side of the plate is maintained at 0°C by iced water while the other side is subjected to convection to an environment at T = 30°C with a heat transfer coefficient of h=45 W/m² -°C. Using the finite difference method with three equally spaced nodes in the medium, two at the boundaries and one at the middle, the following algebraic equations are obtained: 271-T2= 85.7 (in °C) T1-1.032T =– 43.8 (in °C) Determine the exposed surface temperature of the plate T under steady conditions. Uranium plate G Wi-Fi Turned off 0°C k = 28 W/m-K ez = 6x 106 W/m³ Network & Internet settings Change settings, such as making a connection metered. 2 Mobile Wi-Fi Airplae mode hotspot