A cricket ball is thrown at a speed of `28 ms^(-1)` in a direction `30^(@)` above the horizontal. Calculate (a) the maximum height, (b) the time taken by the ball to return to the same level and (c) the distance from the thrower to the point where the ball returns to the same level.

(a) The maximum height is given by
`h_(m) = ((v_(0) sin theta_(0))^(2))/(2g) = ((28 "in " 30^(@))^(2))/(2(9.8)) m`
`= (14 xx 4)/(2 xx 9.8) = 10.0 m`
(b) The time taken to return to the same level is
`T_(f) = (2 v_(0) sin theta_(0))//g = (2 xx 28 xx sin 30^(@))//9.8`
`= 28//9.8 s = 2.9 s`
(c) The distance from the thrower to the point where the ball returns to the same level is
`R = ((v_(0)^(2) sin 2 theta_(0)))/(g) = (28 xx 28 xx sin 60^(@))/(9.8)`
= 69m