The emissivity of the human skin is 97.0 percent. Use 35.0 °C for the skin temperature...

The emissivity of the human skin is 97.0 percent. Use 35.0 °C for the skin temperature...

The emissivity of the human skin is 97.0 percent. Use 35.0 °C for the skin temperature and approximate the human body by a rectangular block with a height of 1.55 m, a width of 37.0 cm and a length of 31.5 cm. 1. Calculate the power emitted by the human body. Hints: Calculate the total surface area of the body. Convert the body temperature from Celsius to Kelvin. Then use the Stefan-Boltzmann law. Incorrect. Tries 1/12 Previous Tries 2. What...

The emissivity of the human skin is 97.0 percent. Use 35.0 °C for the skin temperature...

The emissivity of the human skin is 97.0 percent. Use 35.0 °C for the skin temperature and approximate the human body by a rectangular block with a height of 1.57 m, a width of 44.0 cm and a length of 23.5 cm. Calculate the power emitted by the human body. Fortunately our environment radiates too. The human body absorbs this radiation with an absorbance of 97.0 percent, so we don't lose our internal energy so quickly. How much power do...

The emissivity of the human skin is 97.0 percent. Use 35.0 °C for the skin temperature...

The emissivity of the human skin is 97.0 percent. Use 35.0 °C for the skin temperature and approximate the human body by a rectangular block with a height of 1.94 m, a width of 33.5 cm and a length of 27.5 cm. a) Calculate the power emitted by the human body. b) Fortunately our environment radiates too. The human body absorbs this radiation with an absorbance of 97.0 percent, so we don't lose our internal energy so quickly. How much...

this is a thermodynamics course We want to model energy and mass balance issues involved in...

this is a thermodynamics course We want to model energy and mass balance issues involved in strenuous exercise, for example the running of a marathon. Suppose a 70 kg marathon runner runs at an ≈8 minute/mile pace, completing the 26.2 mile race distance in 210 minutes, or 3.5 hours. a.) Physiological measurements indicate that the total power consumed by an average weight runner (70 kg) at a pace of 8 minutes/mile is about 900 kcal/hour. What is the total energy...