The core temperature of an athlete is 37 °C and his surface area is 1.8 m2. The thermal conductivity of his surface tissue, which is 6 mm thick on average, is 0.18W/m K. If heat is transferred from his core to his skin at a rate of 270W, what is the average temperature of his skin surface?
The core temperature of an athlete is 37 °C and his surface area is 1.8 m2. The thermal conductivity of his surface tissue, which is 6 mm thick on average, is 0.18W/m K. If heat is transferred from his core to his skin at a rate of 270W, what is the average temperature of his skin surface?
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![The core temperature of an athlete is 37 °C
and his surface area is 1.8 m2. The thermal
conductivity of his surface tissue, which is 6
mm thick on average, is 0.18W/m K. If heat
is transferred from his core to his skin at a
rate of 270W, what is the average
temperature of his skin surface?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Faf3f3255-226a-45ec-a70b-b8f685bea227%2F1576dee2-bcfd-42d3-baa1-571bec86be27%2Fdjq6jnk_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The core temperature of an athlete is 37 °C
and his surface area is 1.8 m2. The thermal
conductivity of his surface tissue, which is 6
mm thick on average, is 0.18W/m K. If heat
is transferred from his core to his skin at a
rate of 270W, what is the average
temperature of his skin surface?
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