A force is applied to a cart moving along a horizontal track in the positive x direction. If the cart speeds up and then slows down, then which one of the following graphs best shows the variation of the force with time for the cart? Assume that friction is negligible.

A body is acted upon by a constant force fromtime t=0 to a time t=T after which it does not experience any force. Which of the following graphs best represents the variation of the velocity of the body with time ?

The net force acting on a particle moving along a straight line varies with time as shown in the diagram. Force is parallel to velocity. Which of the following graph is best representative of its speed with time? (Initial velocity of the particle is zero)

A body starting from the the rest moves along a straight line with constant acceleration. Which one of the following graphs represents the variation of speed(v) and distance(s)?

The force acting on a particle moving along a straight line varies with time as shown in diagram. Which of the following graphs is best representative of its speed and time graphs. Initial velocity the particle is zero.

In the shown figure, a small mass m starts sliding down a smooth and stationary circular track. Which of the following graph best represents the variation of magnitude of the force applied by the track on the mass and the angle theta ?

A force F=t is applied to block A as shown in figure. The force is applied at t=0 seconds when the system was at rest and string is just straight without tension. Which of the following graphs gives the friction force between B and horizontal surface as a function of time 't'.

A block of mass m sits at rest on a frictionless table in a rail car that is moving with speed v_(c) along a straight horizontal track (fig.) A person riding in the car pushes on the block with a net horizontal force F for a time t in the direction of the car's motion. What is the final speed of the block according to a person in the car ?