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= Consider a plane wall 100 mm thick and of thermal conductivity 120 W/m-K. Steady-state conditions are known to exist with T₁ 500 K and T₂ = 700 K. Determine the heat flux q", in kW/m2, and the temperature gradient dT/dx, in K/m, for the coordinate systems shown. T(x) T(x) T2 T2 T2 上村 T₁ X+ (c) (a) X+ T₁ (b) T(x)

= Consider a plane wall 100 mm thick and of thermal conductivity 120 W/m-K. Steady-state conditions are known to exist with T₁ 500 K and T₂ = 700 K. Determine the heat flux q", in kW/m2, and the temperature gradient dT/dx, in K/m, for the coordinate systems shown. T(x) T(x) T2 T2 T2 上村 T₁ X+ (c) (a) X+ T₁ (b) T(x)

Elements Of Electromagnetics
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 plane wall 100 mm thick and of thermal conductivity 120 W/m-K. Steady-state conditions are known to exist with T₁ = 500 K and T₂ = 700 K. Determine the heat flux q, in kW/m², and the temperature gradient dT/dx, in K/m, for the coordinate systems shown. T(x) T₁ T2 (a) T₁ (b) T(x) T2 T₂ (c) T(x) T₁
Transcribed Image Text:Consider a plane wall 100 mm thick and of thermal conductivity 120 W/m-K. Steady-state conditions are known to exist with T₁ = 500 K and T₂ = 700 K. Determine the heat flux q, in kW/m², and the temperature gradient dT/dx, in K/m, for the coordinate systems shown. T(x) T₁ T2 (a) T₁ (b) T(x) T2 T₂ (c) T(x) T₁
Determine the heat flux q, in kW/m², and the temperature gradient dT/dx, in K/m, for the coordinate system shown. (9x) a = dx a = i i kW/m² K/m T(x) T₁ T₂
Transcribed Image Text:Determine the heat flux q, in kW/m², and the temperature gradient dT/dx, in K/m, for the coordinate system shown. (9x) a = dx a = i i kW/m² K/m T(x) T₁ T₂
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