Blood can carry excess energy from the interior to the surface of the body, where the energy is dispersed in a number of ways. While a person is exercising, 0.6 kg of blood flows to the body's surface and releases 2000 J of energy. The blood arriving at the surface has the temperature of the body’s interior, 37.0 °C. Assuming that blood has the same specific heat capacity as water, determine the temperature of the 44. blood that leaves the surface and returns to the interior.

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Blood can carry excess energy from the interior to the surface
of the body, where the energy is dispersed in a number of ways.
While a person is exercising, 0.6 kg of blood flows to the body's surface
and releases 2000 J of energy. The blood arriving at the surface has the
temperature of the body’s interior, 37.0 °C. Assuming that blood has the
same specific heat capacity as water, determine the temperature of the
44.
blood that leaves the surface and returns to the interior.
Transcribed Image Text:Blood can carry excess energy from the interior to the surface of the body, where the energy is dispersed in a number of ways. While a person is exercising, 0.6 kg of blood flows to the body's surface and releases 2000 J of energy. The blood arriving at the surface has the temperature of the body’s interior, 37.0 °C. Assuming that blood has the same specific heat capacity as water, determine the temperature of the 44. blood that leaves the surface and returns to the interior.
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