1. A 60-kg patient exercises on the treadmill, exerting a constant force of 500 while running at a constant velocity of 4m/s at an angle of the treadmill 0-30° for 5 minutes. The coefficient of kinetic friction of the treadmill is 0.45. Determine the work done by the patient. [hint: use W=Fd=(T-mg sine - kN)d]
1. A 60-kg patient exercises on the treadmill, exerting a constant force of 500 while running at a constant velocity of 4m/s at an angle of the treadmill 0-30° for 5 minutes. The coefficient of kinetic friction of the treadmill is 0.45. Determine the work done by the patient. [hint: use W=Fd=(T-mg sine - kN)d]
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![1. A 60-kg patient exercises on the treadmill,
exerting a constant force of 500N while
running at a constant velocity of 4m/s at an
angle of the treadmill 0=30° for 5 minutes.
The coefficient of kinetic friction of the
treadmill is 0.45. Determine the work done
by the patient.
[hint: use W = Fd=(T-mg sin0 - µÊN)d]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F052b480f-6d35-40e5-a252-74e9886af30d%2Fce03f5df-df5e-49da-8b92-be7488096d06%2Fly7mjxw_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1. A 60-kg patient exercises on the treadmill,
exerting a constant force of 500N while
running at a constant velocity of 4m/s at an
angle of the treadmill 0=30° for 5 minutes.
The coefficient of kinetic friction of the
treadmill is 0.45. Determine the work done
by the patient.
[hint: use W = Fd=(T-mg sin0 - µÊN)d]
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