From Fourrier's law, the rate of heat transfer in plane surfaces is described by: Q = /(k, A, AT, x) where k = thermal conductivity (Watts/m-"C) Q = rate of heat transfer (Watts) A= area of the surface T= temperature difference x = thickness of the material If we are going to use Buckingham's Pi Theorem to determine dimensionless parameters, give possible combinations of repeating variables.
From Fourrier's law, the rate of heat transfer in plane surfaces is described by: Q = /(k, A, AT, x) where k = thermal conductivity (Watts/m-"C) Q = rate of heat transfer (Watts) A= area of the surface T= temperature difference x = thickness of the material If we are going to use Buckingham's Pi Theorem to determine dimensionless parameters, give possible combinations of repeating variables.
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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Please answer this question using methods of repeating variables/ dimensional analysis. Thank you
Transcribed Image Text:From Fourrier's law, the rate of heat transfer in plane surfaces
is described by:
Q = /(k, A,AT, x)
where k = thermal conductivity (Watts/m-"C)
Q = rate of heat transfer (Watts)
A = area of the surface
T= temperature difference
x = thickness of the material
If we are going to use Buckingham's Pi Theorem to determine
dimensionless parameters, give possible combinations of
repeating variables.
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