Vertical angle of a V-shaped container is `60^(@)` . A sphere of mass 400 g is kept in it. What will be the force exerted by the sphere, normally on each side wall of the container?

The area of one of the walls of container is 3cm^2 . 10^23 Number of molecules are incident on it every second at an angle of 45^@ . What is the pressure exerted on the wall if the velocity of each molecule is 10^5 cm.s^-1 and it mass is 3.32 times 10^-24 g ?

In a container of volume 1L, there are 10^(23) gas molecules, each of which has a mass of 10^(-22) g. at a certain temperature, if the rms velocity of these molecules is 10^(5)cm*s^(-1) , then what would be the pressure at the temperature inside the container?

Find the acceleration of a body falling down a rough plane, inclined at an angle 30^@ . The force of friction is 0.2 times the normal reaction. After descending 1m along the inclined plane, what will be the change in the sum of the potential and the kinetic energies ? Mass o the body is 1g.

A hollow cylinder of radius r is rotating about its own vertical axis. Both ends of the cylinder are open. A piece of stone of mass m remains fixed on the inner side of the cylinder. What should be the minimum velocity of rotation of the cylinder so that the stone remains fixed on the surface of the cylinder without falling down? Coefficient of static friction between the wall of the cylinder and the stone = mu , acceleration due to gravity = g. Also, prove that this velocity is independent of the mass of the stone.

Two sphere M and N, having charge q_(1) and q_(2) are kept at some distance from each other.q amount of charge is taken from the sphere M and transferred ot the sphere N. What is the new charge of the two spheres so that the force acting between them becomes maximum?