The ears of a rabbit can be thought of as two rectangular fins that dissipate heat. The dimensions are 0.1 cm thickness, 3 cm width, and 7 cm length. The average body temperature of a rabbit is 38°C. Assume this to be the temperature of the base of the head where the ears are located. The top of the head can be assumed to be a surface with area 42 cm², neglecting the area (including the base) of the ears. Assume an adiabatic tip condition for the ears. Also, neglect radiation. The thermal conductivity of the rabbit's skin is 3 W/m.°C. The convection coefficient and temperature of the air are 8 W/m².°c and 10°C, respectively. With this in mind, find the total heat transfer from the top of the rabbit's head including the ears. 1315 W
The ears of a rabbit can be thought of as two rectangular fins that dissipate heat. The dimensions are 0.1 cm thickness, 3 cm width, and 7 cm length. The average body temperature of a rabbit is 38°C. Assume this to be the temperature of the base of the head where the ears are located. The top of the head can be assumed to be a surface with area 42 cm², neglecting the area (including the base) of the ears. Assume an adiabatic tip condition for the ears. Also, neglect radiation. The thermal conductivity of the rabbit's skin is 3 W/m.°C. The convection coefficient and temperature of the air are 8 W/m².°c and 10°C, respectively. With this in mind, find the total heat transfer from the top of the rabbit's head including the ears. 1315 W
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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![The ears of a rabbit can be thought of as two rectangular fins that dissipate heat. The dimensions are 0.1 cm
thickness, 3 cm width, and 7 cm length. The average body temperature of a rabbit is 38°C. Assume this to
be the temperature of the base of the head where the ears are located. The top of the head can be assumed
to be a surface with area 42 cm², neglecting the area (including the base) of the ears. Assume an adiabatic
tip condition for the ears. Also, neglect radiation. The thermal conductivity of the rabbit's skin is 3 W/m. °C.
The convection coefficient and temperature of the air are 8 W/m².°c and 10°C, respectively. With this in
mind, find the total heat transfer from the top of the rabbit's head including the ears.
1315 W](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F20000a63-5a8a-4b5e-adbd-85ecbf6c298b%2Fba16177d-677b-47ac-91cf-7e89a3dfd3fd%2Ffseq9rh_processed.png&w=3840&q=75)
Transcribed Image Text:The ears of a rabbit can be thought of as two rectangular fins that dissipate heat. The dimensions are 0.1 cm
thickness, 3 cm width, and 7 cm length. The average body temperature of a rabbit is 38°C. Assume this to
be the temperature of the base of the head where the ears are located. The top of the head can be assumed
to be a surface with area 42 cm², neglecting the area (including the base) of the ears. Assume an adiabatic
tip condition for the ears. Also, neglect radiation. The thermal conductivity of the rabbit's skin is 3 W/m. °C.
The convection coefficient and temperature of the air are 8 W/m².°c and 10°C, respectively. With this in
mind, find the total heat transfer from the top of the rabbit's head including the ears.
1315 W
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