Consider a wall of thickness 50 mm and thermal conductivity 14 W/m.K, the left side(x-0) is insulated. Heat generation (q) is present within the wall and the onedimensional steady-state temperature distribution is given by T(x) = ax +bxtc [°C] ,where c 200 °C, a = -1285 °C/m , b=needs to he determined, andx is in meters. Whatis the heat fluxes at the right side, x = L, (kW/m )?9, K 4L)Insulation

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Consider a wall of thickness 50 mm and thermal conductivity 14 W/m.K, the left side (x-0) is insulated. Heat generation (q.) is present within the wall and the one dimensional steady-state temperațure distribution is given by T(x) = ax +bx+c [°C] , where c = 200 °C, a = -1285°C/m , b= needs to he determined, and x is in meters. What is the heat fluxes at the right side r=L I-Wm1?

Consider a wall of thickness 50 mm and thermal conductivity 14 W/m.K, the left side (x-0) is insulated. Heat generation (q.) is present within the wall and the one dimensional steady-state temperațure distribution is given by T(x) = ax +bx+c [°C] , where c = 200 °C, a = -1285°C/m , b= needs to he determined, and x is in meters. What is the heat fluxes at the right side r=L I-Wm1?

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter8: Natural Convection

Section: Chapter Questions

Problem 8.36P

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