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A boy throws a ball with initial velocit...

A boy throws a ball with initial velocity `u` at an angle of projection `theta` from a tower of height H.
Neglecting air resistance, find
a. How high above the building the ball rises
b. Its speed just before it hits the ground.

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a. Only gravitational force acts on the ball, which is conservative, therefore, we can apply conservation of energy.
We assign reference level at the top of the building, i.e., `U_(gi)=0`. At the topmost point, the ball is moving horizontally with velocity `u cos theta`.
Initial total mechanical energy:
`E_i=0+1/2mu^2`
Total mechanical energy at the topmost point:
`E_f=1/2mu^2cos^2theta+mgh`
From conservation of energy, we have `E_i=E_f`
`1/2mu^2=1/2mu^2cos^2theta+mgh`
`h=(u^2-u^2cos^2theta)/(2g)=(u^2sin^2theta)/(2g)`
b. If `v` is the speed of the ball at the ground,
`E_f=1/2mv^2-mgH`
From conservation of energy, we have `E_i=E_f`
`1/2mv^2=1/2mv^2-mgH`
`v=sqrt(u^2+2gH)`
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