In a stunt filmed for a movie, a van rolls down an incline and off a vertical cliff, falling into an ocean below. The van starts from rest and rolls down the incline, which makes an angle of 21.0° below t horizontal, with a constant acceleration of 3.37 m/s². After rolling down the incline a distance of 55.0 m, it reaches the edge of the cliff, which is 25.0 m above the ocean. (a) How much time (in s) does it take the van to fall from the edge of the cliff to the landing point? (b) At the point where the van lands in the ocean, how far is it horizontally from the edge of the cliff (in m)? m

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In a stunt filmed for a movie, a van rolls down an incline and off a vertical cliff, falling into an ocean below. The van starts from rest and rolls down the incline, which makes an angle of 21.0° below t
horizontal, with a constant acceleration of 3.37 m/s². After rolling down the incline a distance of 55.0 m, it reaches the edge of the cliff, which is 25.0 m above the ocean.
(a) How much time (in s) does it take the van to fall from the edge of the cliff to the landing point?
S
(b) At the point where the van lands in the ocean, how far is it horizontally from the edge of the cliff (in m)?
m
Transcribed Image Text:In a stunt filmed for a movie, a van rolls down an incline and off a vertical cliff, falling into an ocean below. The van starts from rest and rolls down the incline, which makes an angle of 21.0° below t horizontal, with a constant acceleration of 3.37 m/s². After rolling down the incline a distance of 55.0 m, it reaches the edge of the cliff, which is 25.0 m above the ocean. (a) How much time (in s) does it take the van to fall from the edge of the cliff to the landing point? S (b) At the point where the van lands in the ocean, how far is it horizontally from the edge of the cliff (in m)? m
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