A boy on a cycle pedals around a circle of 20 metres radius at a speed of `20 "metres"//sec`. The combined mass of the boy and the cycle is 90 kg . The angle that the cycle makes with the vertical so that it may not fall is `(g = 9.8 m//sec^(2))`

Calculate the work done to take an object of mass 20 kg to a height of 10 m. (g = 9.8 m/s2)

A body of mass 2 kg is attached to a cord and whirled in a vertical circle of radius 2 m. The minimum speed at the bottom of the circle so that the cord will not slacken when the body rounds the top of the circle will be

A magnetic needle is suspended freely so that it can rotate freely in the magnetic meridian. In order to keep it in the horizontal position, a weight of 0.2 g is kept on one end of the needle. If the pole strength of this needle is 20 Am, find the value of the vertical component of the earth s magnetic field, (g = 9.8 m//s^-2)

A cyclist with combined mass 80 kg going around a curved road with a uniform speed 20 m//s . He has to bend inward by an angle theta = tan^(-1) (0.50) with the verticle , then the force of friction between road surface and tyres will be (g=10m//s^(2)

An aeroplane flying in the sky with a uniform speed of 200 m//s moves in a vertical circle of radius 400 m. The mass of the pilot is 70 kg. The force exerted by the pilot on the seat at the highest point of the circle will be [Take g=10 m//s^2 ]

A bucket full of water is rotated in vertical circle of radius 20 m. The minimum speed that the bucket should have so that water will not fall when it is at the highest point is:

A body of mass 2 kg is being dragged with uniform velocity of 2 m / s on a rough horizontal plane. The coefficient of friction between the body and the surface is 0.20. The amount of heat generated in 5 sec is . (4.2"joule"//cal and g=9.8 m//s^(2))

A cyclist going around a circular road of radius 10 m is observed to be bending inward 30^@ with vertical. Frictional force acting on the cyclist is (Given:g=10 m//s^2 , mass of the cyclist is 90 kg)

A stone of mass 1 kg is whirled in horizontal circle attached at the end of a 1 m long string. If the string makes an angle of 30^@ with vertical, calculate the centripetal force acting on the stone. (g = 9.8 m/s^2)

A 60 kg weight is dragged on a horizontal surface by a rope upto 2 metres. If coefficient of friction is mu=0.5 the angle of rope with the surface is 60^(@) and g=9.8m//sec^(2), then work done is