A car is accelerated on a lavelled road and attains a velocity 4 times of its initial velocity. In this process, the potential energy of the car

A car is accelerated on a lavelled road and attains a speed of 4 times its initial speed. In this process, the kinetic energy of the car :

A car accelerates on a horizontal road due to the force exerted by

A car of mass M is accelerating on a level smooth road under the action of a single force F acting along the direction of motion. The power delivered to the car is constant and equal to p. If the velocity of the car at an instant is v, then after travelling a distance of (7 Mv^3)/(3p) the velocity become kv where k is__________.

.A body moving with some initial velocity and having uniform acceleration attains a final velocity vm/s after travelling xm .If its final velocity is v = √180−7x , ,find the acceleration of the body

A car of mass m is driven with acceleration a along a straight level road against a constant external resistive force R. When the velocity of the car V, the rate at which the engine of the car is doing work will be

What is the angular acceleration of a particle if the angular velocity of a particle becomes 4 times of its initial angular velocity 1 rad s in 2 seconds

A car accelerates uniformly at 4 m s^(-2) from rest. Find its velocity at the end of 5 seconds.

Velocity of a body moving a straight line with uniform acceleration (a) reduces by (3)/(4) of its initial velocity in time t_(0) . The total time of motion of the body till its velocity becomes zero is

A car moves in a straight line, the car accelerates from rest with a constant acceleraation alpha on a straight foad. After gaining a velocity v , the car moves with that velocity for somerime. Then car decelerates with a retardation beta , If the total distance covered by the car is equal to s find the total time of its motion.