The centre of a wheel rolling on a plaen surface moves with a speed `v_0`. A particle on the rim of the wheel at the same level as the centre will be moving at speed

The magnitude of average velocity is equal to the average speed when a particle moves:-

A satellite moves eastwards very near the surface of the Earth in equitorial plane with speed (v_(0)) . Another satellite moves at the same height with the same speed in the equatorial plane but westwards. If R =radius of the Earth and omega be its angular speed of the Earth about its own axis. Then find the approximate difference in the two time period as observed on the earth.

A satellite moves around the earth in a circular orbit with speed v . If m is the mass of the satellite, its total energy is

Average speed of a particle moving with different speed is average of different speed.

A particle of mass m moving with velocity v is collide with a stationary particle of mass 2 m . The speed of the system , after collision will be ……….

A bus of 2500 kg is moving on a straight road with a speed of 40 km/h. A car of 1500 kg is following the bus with a speed of 80 km/h. How fast is the centre of mass of the system of two vehicles moving?

On a train moving along east with a constant speed v, a boy revolves a bob with string of length l on smooth surface of a train, with equal constant speed v relative to train. Mark the correct option(s).

Three particles with equal mass move with equal speed v along the medians of an equilateral triangle as shown. They all collide at the centroid simultaneously. After the collision. A comes to rest, B retraces it's path with same speed. What is speed of C after the collision?

A source of sound emits sound waves at frequency f_(0) . It is moving towards an observer with fixed speed v_(s)(v_(s) lt v where v is the speed in air). If the observer were to move towards the source with speed v_(0) one of the following two graphs (A and B) will give the correct variation of the frequency f heard by the observer as v_(0) is changed, The variation of f with v_(0) is given correctly by :-