A rock is thrown off a cliff at an angle of 59° above the horizontal. The cliff is 135 m high. The initial speed of the rock is 20 m/s. (Assume the height of the thrower is negligible.)

(a) How high above the edge of the cliff does the rock rise (in m)?
wrong answers are 149.449m and 18.016m

(b) How far has it moved horizontally when it is at maximum altitude (in m)?
 
 
(c) How long after the release does it hit the ground (in s)?
 

(d) What is the range of the rock (in m)?

(e)What are the horizontal and vertical positions (in m) of the rock relative to the edge of the cliff at t = 2.0 s, t = 4.0 s, and t = 6.0 s?
(Assume the +x-direction is in the horizontal direction pointing away from the cliff, the +y-direction is up towards the sky, and x = y = 0 at the point from which the rock is thrown.)

x(2.0 s)    =    m
y(2.0 s)    =    m
x(4.0 s)    =    m
y(4.0 s)    =    m
x(6.0 s)    =    m
y(6.0 s)    =    m

Transcribed Image Text:

A rock is thrown off a cliff at an angle of 59° above the horizontal. The cliff is 135 m high. The initial speed of the rock is 20 m/s. (Assume the height of the thrower is negligible.) (a) How high above the edge of the cliff does the rock rise (in m)? x m (b) How far has it moved horizontally when it is at maximum altitude (in m)? (c) How long after the release does it hit the ground (in s)? (d) What is the range of the rock (in m)? (e) What are the horizontal and vertical positions (in m) of the rock relative to the edge of the cliff at t = 2.0 s, t = 4.0 s, and t = 6.0 s? (Assume the +x-direction is in the horizontal direction pointing away from the cliff, the +y-direction is up towards the sky, and x = y = 0 at the point from which the rock is thrown.) x(2.0 s) = y(2.0 s) = x(4.0 s) = y(4.0 s) = m x(6.0 s) = y(6.0 s) = m