A stone of mass 1 kg is lying on the floor of a train which is accelerating with `1 m//s^2`. The net force acting on the stone is,

A stone of mass l kg is lying on the floor of a train which is accelerating with 1ms^(-2) The net force acting on the stone is

Given the magnitude and direction of the force acting on a stone of mass 0.1 kg (a) just after it is dropped from the window of a stationary train (b) just after it is dropped from the window of a train running at a constant velocity of 36 km//hr (c) just after it is droped from the window of a train accelerating with 1 ms^(-2) (d) lying on the floor of a trin which is accelerating with 1 ms^(-2) the stone being at rest relative to the train . Neglect the resistance of air throuhout .

STATEMENT-1 : A stone of mass m kg is dropped vertically down for the window of a train which is at rest and than the same stone is dropped from the window of the train accelerating with a m//s^(2) . The net force in the space acting on the stone is mg downward in both cases. because STATEMENT-2 : Vertical and horizontal motions are independent of each other in two dimensional projectile motion.

A young man of mass 60 kg stands on the floor of a lift which is acceleration downwards at 1m//s^(2) then the reaction of the floor of the lift on the man is (Take g = 9.8 m//s^(2) )

Figure shows a man of mass 55 kg standing stationary with respect to a horizontal conveyor belt that is accelerating with 1m s^(-2) . The net force acting on the man is

A body of mass 1kg is moving along a straight line with a velocity of 1m//s . The external force acting in the body is

A balloon of mass 2 kg is rising up with an acceleration of 4 m/s^2 . The upward force acting on the balloon is (g = 10 ms^-2)

A man of mass 65kg is standing stationary with respect to a conveyor belt which is accelerating with 1m//s^(2) . if mu_(s) is 0.2 the net force on the man and the maximum acceleration of the belt so that the man is stationary relative to the belt are (g =10 m//s^(2)) .