Considering the following 2nd order differential equation that will be used to model a plane wall with uniformly distributed heat source, if both system length H and boundary conditions are described as follows: d²T k +qo=0, T(0) = To and T(H) = To dx² where k is the coefficient of thermal conductivity of the material, T represents the temperature, and qo internal heat source per unit volume Analyze the role of FEA in providing simple solutions whenever complicated geometry and composition of materials are found in such problems.
Considering the following 2nd order differential equation that will be used to model a plane wall with uniformly distributed heat source, if both system length H and boundary conditions are described as follows: d²T k +qo=0, T(0) = To and T(H) = To dx² where k is the coefficient of thermal conductivity of the material, T represents the temperature, and qo internal heat source per unit volume Analyze the role of FEA in providing simple solutions whenever complicated geometry and composition of materials are found in such problems.
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:Considering the following 2nd order differential equation that will be used to model a plane wall with
uniformly distributed heat source, if both system length H and boundary conditions are described as follows:
d²T
k+90 = 0, 7(0) = To and T(H) = To
dx²
where k is the coefficient of thermal conductivity of the material, T represents the temperature, and
qo internal heat source per unit volume
Analyze the role of FEA in providing simple solutions whenever complicated geometry and composition of
materials are found in such problems.
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