A cylinder of radius R full of liquid of density p is rotated about its axis at w rad/s. The increase in pressure at the centre of the cylinder will be

A cylinder is fill ed with a liquid of density p upto a height h. What is the hydrostatic pressure exerted by the liquid on the bottom of the cylinder, if the cylinder is kept in a lifi moving upwa rds with an acceleration a ?

An solid cylinder of mass 20 kg and radius 20 cm rotates about its axis with a angular speed 100 rad s^-1 . The angular momentum of the cylinder about its axis is.

A cylinder of mass M and radius R can rotate about its axis of symmetry. Can mass inside the cylinder can be distributed such that the moment of inertia of it become more than MR^(2) .

An infinite cylinder of radius r with surface charge density sigma is rotated about its central axis with angular speed omega . Then the magnetic field at any point inside the cylinder is

A small tank of cylindrical shape and of radius R is containing a liquid of density sigma. On rotating the vessel about its axis with angular velocity omega, the liquid rises at the sides of vessel through height h. P_1 and P_2 are pressure at sides and at the centre of tank respectively, then

The moment of inertia of a solid cylinder of mass M, length 2 R and radius R about an axis passing through the centre of mass and perpendicular to the axis of the cylinder is I, and about an axis passing through one end of the cylinder and perpendicular to the axis of cylinder is I_2 then

The moment of inertia of a solid cylinder of mass M, length 2R and radius R about an axis passing through the centre of mass and perpendicular to the axis of the cylinder is I_(1) and about an axis passing through one end of the cylinder and perpendicular to the axis of cylinder is I_(2)

A cylinder vessel of radius 10 cm containing a liquid is rotating about a vertical axis through the centre of circular base. The vessel is rotating with angular frequency 10 rad/s. Find the difference of the heights of liquid at centre of vessel and edge.

A hollow cylinder of radius R rotates about its axis which is vertical. A block remains in contact with the inner wall if the frequency of rotation is f hertz, but falls at lower frequaencies. The coefficient of friction between the block and the cylinder is