Asked by sal
A child starts from rest and slides down a snow-covered hill with a slope angle of 47° from a height of 1.8m above the bottom of the hill. The speed of the child at the bottom of the hill is 3.1m/s. Find the coefficient of kinetic friction between the hill and the child.
My answer is 0.54, is that correct?
My answer is 0.54, is that correct?
Answers
Answered by
Damon
Potential energy at top = m g h = 1.8 m g
Kinetic energy at bottom = (1/2) m v^2 = .5 m(3.1)^2
Energy loss = L = m(1.8 g -.5*3.1^2)
work done by friction = L = F * d = F*1.8/sin 47
normal force = m g cos 47
F = mu * normal force = mu m g cos 47
so
work done by friction = mu m g cos 47 * 1.8 /sin 47
so in the end
mu g cos 47 * 1.8 /sin 47 = (1.8 g -.5*3.1^2)
Kinetic energy at bottom = (1/2) m v^2 = .5 m(3.1)^2
Energy loss = L = m(1.8 g -.5*3.1^2)
work done by friction = L = F * d = F*1.8/sin 47
normal force = m g cos 47
F = mu * normal force = mu m g cos 47
so
work done by friction = mu m g cos 47 * 1.8 /sin 47
so in the end
mu g cos 47 * 1.8 /sin 47 = (1.8 g -.5*3.1^2)
Answered by
Damon
I get closer to .78 but do not have calculator handy
Answered by
sal
Yes, that's what I'm getting too, thank you!
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