Answer to Question #329410 in Physics for Jane

Question #329410

A 65 kg mountain climber climbs through a vertical rope at a constant acceleration from rest to a

1 of 1.25 m/s in 10.0 s and feels no appreciable air resistance. How much power must the

speed m/s in 10.0s and alr must

climber imparts on the vertical rope?

Expert's answer

The acceleration of the climber is:

"a = \\dfrac{v_f}{t} = \\dfrac{1.25m\/s}{10s} = 0.125m\/s^2"

where "v_f = 1.25m\/s" is its final speed, and "\\Delta t = 10s" is the time. The velocity is then depends on time as follows:

"v(t) = at"

According to the second Newton's law, the net force on the climber is:

"F = ma"

where "m = 65kg" is his mass.

The power is then:

"P(t) = F\\cdot v(t) = ma\\cdot at = ma^2t"

This expression depends on time. I assume it is asked to find the average power during 10s. The average power is:

"P_{av} = \\dfrac{1}{\\Delta t}\\int_0^{\\Delta t} P(t)dt = \\dfrac{1}{\\Delta t}\\int_0^{\\Delta t} ma^2tdt=ma^2\\dfrac{\\Delta t}{2}\\\\\nP_{av} = \\dfrac{65kg\\cdot (0.125m\/s^2)^2\\cdot 10s}{2} \\approx 5.1W"

Answer. 5.1W.

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Answer to Question #329410 in Physics for Jane

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