A man standing in a lift falling under gravity releases a ball from his hand. As seen by him the ball

A cuboidal elevator cabon is shown in the figure. A ball is thrown from point A on the floor of cabon when the elevator is falling under gravity. The plane of motions is ABCD and the angle of projection of the ball with AB, relative to elevator, if the ball collides with point C, is alpha . Then find the value of tan alpha .

A man standing on a long rail road car throws a ball vertically upward with speed 20 m//s . The car starts from rest and moves with acceleration 2 m//s^(2) . How far behind the man will the ball fall on the car ?

A steel ball is dropped from th roof of a building. A man standing in front of a 1-m high window in the building notes tha the ball takes 0.1 s to the fall from the top to the boottom of the window. The ball continues to fall and strikes the ground. On striking the ground, the ball gers rebounded with the same speed with which it hits the ground. If the ball reappears at the bottom of the window 2 s after passing the bottom of the window on the way down, dind the height of the building.

Why does an object released from the hand , fall on the earth ?

A small steel ball of mass m and radius r is falling under gravity through a viscous liquid of coefficient of viscosity eta . If g is the value of acceleration due to gravity. Then the terminal velocity of the ball is proportional to (ignore buoyancy)

When a man is standing, rain drops appear to him falling at 60° from the horizontal from his front side. When he is travelling at 5kmph on a horizontal road they appear to him falling at 30°, from the horizontal from his front side. The actual speed of the rain is (in km per hour)

A block has a L shaped stand fixed to it. Mass of the block with the stand is M. At the free end of the stand there is a spring which carries a ball of mass m. With the spring in its natural length, the ball is released. It begins to oscillate and the stand is tall enough so that the ball does not hit the block. (a) Find maximum value of mass (m) of the ball for which the block will not lose contact with the ground? (b) If the stand is not tall enough and the ball makes elastic impact with the block, will your answer to part (a) change?

A string of negligible thicknes is wrapped several times around a cylinder kept on a rough horizontal surface. A man standing at a distance l from the cylinder holds one end of the sitting an pulls the cylinder towards him figure. There is no slipping anywhere. The length of the string passed through the hand of the man whicle the cylinder reaches his hands is