Tyler is standing beside a merry-go-round pushing 11 degrees from the tangential
ID: 1376373 • Letter: T
Question
Tyler is standing beside a merry-go-round pushing 11 degrees from the tangential direction and is able to accelerate the ride and his friends from rest to a frequency of 16 rpm in 10 seconds. Assume the merry-go-round is a uniform disc of radius 2.1 m and has a mass of 760 kg. Rachel (48 kg) and Tayler (46 kg) sit opposite each other on the edge of the ride.
What force did Tyler push with? (N)
(include units with answer)
I know the mass moment of inertia is approximately 2090 kg-m^2 and that the angular acceleration is approximately .16755 rad/s^2
I've also found the work done by tyler to be 2934 J but try working it out without this bit of information if you can.
Tyler is standing beside a merry-go-round pushing 11 degrees from the tangential direction and is able to accelerate the ride and his friends from rest to a frequency of 16 rpm in 10 seconds. Assume the merry-go-round is a uniform disc of radius 2.1 m and has a mass of 760 kg. Rachel (48 kg) and Tayler (46 kg) sit opposite each other on the edge of the ride. What force did Tyler push with? (N) (include units with answer) I know the mass moment of inertia is approximately 2090 kg-m^2 and that the angular acceleration is approximately .16755 rad/s^2 I've also found the work done by tyler to be 2934 J but try working it out without this bit of information if you can.Explanation / Answer
you can divide the Works betwee the moment
1.40Kg(9.81m/s
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