A 71.8 kg sprinter accelerates from rest to a speed of 18.7 m/s in 7.0 s. (e) If no heat is dissipated by the body, by how many º C will body increase in temperature? A 71.8 kg sprinter accelerates from rest to a speed of 18.7 m/s in 7.0 s. (e) If all of the excess heat is dissipated by evaporating water on the skin, determine the mass of water/sweat needed.

A 71.8 kg sprinter accelerates from rest to a speed of 18.7 m/s in 7.0 s. (e) If no heat is dissipated by the body, by how many º C will body increase in temperature? A 71.8 kg sprinter accelerates from rest to a speed of 18.7 m/s in 7.0 s. (e) If all of the excess heat is dissipated by evaporating water on the skin, determine the mass of water/sweat needed.

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Question

A 71.8 kg sprinter accelerates from rest to a speed of 18.7 m/s in 7.0 s. (e) If no heat is dissipated by the body, by how many º C will body increase in temperature?

A 71.8 kg sprinter accelerates from rest to a speed of 18.7 m/s in 7.0 s. (e) If all of the excess heat is dissipated by evaporating water on the skin, determine the mass of water/sweat needed.

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