A car of mass 1000 kg is moving with a velocity of 10 m `s^(-1)`. If the velocity-time graph for this car is a horizontal line parallel to the time axis, then the velocity of car at the end of 25 s will be :

The velocity time graph of the motion of a car is given here.

A Car of mass 1000 kg is moving with a velocity of 10 m // s under the action of a forward force of 1000 N and retarding force of 500 N due to friction. Wath be its velocity after 5 seconds ?

A boy of mass 40 kg stands on a rail road car of mass 60 kg , moving with velocity 10 m//s . Now , the boy begins to run with velocity 5 m//s , with respect to the car , in the same direction , the velocity of the car will be

The velocity-time graph of a car moving along a straight road is shown in figure. The average velocity of the car in first 25 seconds is

A girl of mass 50 kg stands on a railroad car of mass 75 kg moving with velocity 20 ms^(-1) . Now , the girl begins to run with a velocity of 10ms^(-1) with respect to the car in the same direction , as that of the car. The velocity of the car at this instant will be

A car of mass 2400 kg moving with a velocity of 20 m s^(-1) is stopped in 10 seconds on applying brakes Calculate the retardation and the retarding force.

The velocity-time graph of a car moving along a straight road is shown in figure. The average velocity of the car is first 25 seconds is

Velocity-time graph for a car is semicircle as shown here. Which of the following is correct:

The diagram shows a velocity-time graph for a car moving in a straight line. At point Q the car must be

A car of mass 1000kg and a bus of mass 8000kg are moving with same velocity of 36 km h^-1 Find the forces to stop both the car and the bus in 5s.