5. Wall A is insulated at x-0 and experiences a uniform endothermic reactions (negative heat generation) and wall B is exposed to water as shown. i- Sketch the steady state temperature distribution on T-x plot (similar to shown below) for the composite wall ii- Calculate the value of heat generation in wall A if T2 = 70°C. T = 100°C h. = 1000 W/m²K Insulation- = . ? W/m3 A B Water KA = 300 W/m:K ka = 150 W/m-K 93 = 0 L = 50 mm →kT 20 mm
5. Wall A is insulated at x-0 and experiences a uniform endothermic reactions (negative heat generation) and wall B is exposed to water as shown. i- Sketch the steady state temperature distribution on T-x plot (similar to shown below) for the composite wall ii- Calculate the value of heat generation in wall A if T2 = 70°C. T = 100°C h. = 1000 W/m²K Insulation- = . ? W/m3 A B Water KA = 300 W/m:K ka = 150 W/m-K 93 = 0 L = 50 mm →kT 20 mm
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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Question is iamge
![5.
Wall A is insulated at x-0 and experiences a uniform endothermic reactions
(negative heat generation) and wall B is exposed to water as shown.
i-
Sketch the steady state temperature distribution on T-x plot (similar to shown
below) for the composite wall
ii-
Calculate the value of heat generation in wall A if T2 = 70°C.
T = 100°C
h. = 1000 W/m²K
Insulation-
= .
? W/m3
A
B
Water
KA = 300 W/m:K
ka = 150 W/m-K
93 = 0
L = 50 mm →kT
20 mm](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff366d9a2-8fef-4b86-9db9-e36ba6272597%2F67e53d4d-47d1-4e3c-becf-c64d7cd9e2b9%2F8h2mvpa.jpeg&w=3840&q=75)
Transcribed Image Text:5.
Wall A is insulated at x-0 and experiences a uniform endothermic reactions
(negative heat generation) and wall B is exposed to water as shown.
i-
Sketch the steady state temperature distribution on T-x plot (similar to shown
below) for the composite wall
ii-
Calculate the value of heat generation in wall A if T2 = 70°C.
T = 100°C
h. = 1000 W/m²K
Insulation-
= .
? W/m3
A
B
Water
KA = 300 W/m:K
ka = 150 W/m-K
93 = 0
L = 50 mm →kT
20 mm
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