3.37 Measurements show that steady-state conduction through a plane wall without heat generation produced a convex temperature distribution such that the mid- point temperature was AT, higher than expected for a linear temperature distribution. Tuz AT. T(x) Assuming that the thermal conductivity has a linear dependence on temperature, k = k,(1 + aT), where a is a constant, develop a relationship to evaluate a in terms of AT, T, and T,.
3.37 Measurements show that steady-state conduction through a plane wall without heat generation produced a convex temperature distribution such that the mid- point temperature was AT, higher than expected for a linear temperature distribution. Tuz AT. T(x) Assuming that the thermal conductivity has a linear dependence on temperature, k = k,(1 + aT), where a is a constant, develop a relationship to evaluate a in terms of AT, T, and T,.
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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Transcribed Image Text:3.37 Measurements show that steady-state conduction
through a plane wall without heat generation produced
a convex temperature distribution such that the mid-
point temperature was AT, higher than expected for a
linear temperature distribution.
Tuz AT.
T(x)
Assuming that the thermal conductivity has a linear
dependence on temperature, k = k,(1 + aT), where a is
a constant, develop a relationship to evaluate a in terms
of AT, T, and T,.
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