A cricket ball, thrown upwards from a height 2 m making an angle of `30^@` with the horizontal at velocity `20 m*s^(-1)` , was caught by a player 50 cm above the ground. Find the distance between the thrower and the player.

A body is projected with a velocity 20 m*s^(-1) , making an angle of 45^@ with the horizontal. Calculate (ii) horizontal range.

A body is projected with a velocity 20 m*s^(-1) , making an angle of 45^@ with the horizontal. Calculate the maximum height it can attain

A body is thrown horizontally with velocity 122 m *s^(-1) from the top of a tower 122 m high . When and where does the body hit the ground ?

A body is projected with a velocity 20 m*s^(-1) , making an angle of 45^@ with the horizontal. Calculate (i) the time taken to reach the ground [g=10 m*s^(-2)] ,

A stone is thrown from the ground with a velocity of 14 m *s^(-1) , making an angle 60^@ with the horizontal. (i) What is the maximum height attained by the stone ?

A tennis ball, thrown horizontally from a height of 2m , lands after covering a horizontal distance of 20 m . On its way, the ball just touches a net 14 m from the projection point (distance measered horizontally ). Find the height of the net from the ground.

A stone is thrown up from the earth's surface with an initial velocity of 28 m*s^(-1) , making and angle 30^@ with the horizontal. Find the maximum height attained and the range of the projectile motion of the stone.

A stone is thrown from the ground with a velocity of 14 m *s^(-1) , making an angle 60^@ with the horizontal. (ii) How far from the point of projection will it touch the ground ?

A football of mass 200 g moving towards a player with a velocity of 20m cdot s^(-2) is kicked back by him. If the ball after being kicked moves with a velocity of 30 m cdot s^(-1) at an angle of 45^(@) with the horizontal, then find (i) the net impuse of the force and (ii) the average force acting on the football. (Given , time of contact between football and the foot of the player is 0.1 s )