The wheels of a motorcycle are of radius 35 cm. How many revolutions per minute must the wheel make so as to keep a speed of 66 km/h ?

The wheels of a car are of diameter 80 cm each. How many complete revolutions does each wheel make in 10 minutes when the car is travelling at a speed of 66km per hour ?

The mass of a car is 1500 kg. How much work is required to be done on it to make with a speed of 72 km/h ?

The wheel of a railway carriage is 40cm in diameter and makes 6 revolutions in a second, how fast is the train going?

The speed of a motorcycle is 40 km h^(-1) for first 10 minute and 50 km h^(-1) for the next 10 minute, then the average speed of this motorcycle during the 20 minute would be ......... km h^(-1).

A man stands on a rotating platform, with his arms stretched horizontally holding a 5 kg weight in each hand. The angular speed of the platform is 30 revolutions per minute. The man then brings his arms close to his body with the distance of each weight from the axis changing from 90cm to 20cm. The moment of inertia of the man together with the platform may be taken to be constant and equal to 7.6 kg m^(2) . (a) What is his new angular speed? (Neglect friction.) (b) Is kinetic energy conserved in the process? If not, from where does the change come about?

A man stands on a rotating platform, with his arms stretched horizontally holding a 5 kg weight in each hand. The angular speed of the platform is 30 revolutions per minute. The man then brings his arms close to his body with the distance of each weight from the axis changing from 90cm to 20cm. The moment of inertia of the man together with the platform may be taken to be constant and equal to 7.6 kg m^(2) . (a) What is his new angular speed? (Neglect friction.) (b) Is kinetic energy conserved in the process? If not, from where does the change come about?

A wheel makes 360 revolutions in one minute. Through how many radian does it turn in one second?

A hoop of radius 2 m weights 100 kg. It rolls along a horizontal floor so that its centre of mass has a speed of 20 cm/s. How much work has to be done to stope it?

A hoop of radius 2 m weighs 100 kg. It rolls along a horizontal floor so that its centre of mass has a speed of 20 cm/s. How much work has to be done to stop it?