A ball is projected with a speed of `2ms^(-1)` with respect to a trolley which is moving with `4ms^(-1)`, as shown in the figure. The angle at which ball is projected with respect to the horizontal in ground frame is

A ball is moving with speed 20 ms^(-2) collides with a smooth surface as shown in figure. The magnitude of change in velocity of the ball will be

A ball is moving with speed 20 ms^(-2) collides with a smooth surface as shown in figure. The magnitude of change in velocity of the ball will be

A body is projected horizontally with speed 20 ms^(-1) . The speed of the body after 5s is nearly

A sphercial ball of mass 5kg is resting on a plane with angle of inclination 30^(@) with respect to the horizontal as shown in the figure. The ball is held in place by a rope attached horizontally to the top of the ball and to the slope. The frictional force acting on the ball is

A ball is projected from point A with velocity 10 ms^(-1) perpendicular to the inclined plane as shown in figure. Range of the ball on the inclined plane is

A ball is projected at an angle 30° with the horizontal with the velocity 49 ms^(-1) . The horizontal range is

A ball is projected horizontally with a velocity of 5ms^(-1) from the top of a building 19.6 m high. How long will the ball take to hit the ground ?

A ball is projected for maximum range with speed 20 ms^-1 . A boy is located at a distance 25 m from point of throwing start run to catch the ball at the time when the ball was projected. Find the speed of the boy so that he can catch the ball (Take g = 10 ms^-1) .

A man throws a ball of mass m from a moving plank (A). The ball has a horizontal component of velocity u=3sqrt(34)ms^(-1) with respect to ground towards another man standing on stationary plank (B), as shown in the figure. The combined mass of plank A with man is 2m each. The x-y plane represents the horizontal plane which is frictionless. If initially, plank A was moving with speed uhati with respect to ground, then the relative velocity of plank B ("in m s"^(-1)) with respect to plank A (after the man on plank B catches the ball) minus 10ms^(-1) is

From the top of a tower of height 40m, a ball is projected upward with a speed of 20ms^(-1) at an angle of elevation of 30^(@) . Then the ratio of the total time taken by the ball to hit the ground to the time taken to ball come at same level as top of tower.