If a solid cylinder of area of cross-section A is moving with velocity V in medium of density p then power loss of cylinder is

Consider a solid cylinder of the density rho_(s) cross section area A and h ploating in a liquid of density rho_(l) as shown in figure (rho_(l) gt rho_(s)) . It is depressed sligtly and allowed to oscillation.

A liquid of density rho is filled in a beaker of cross section A to a height H and then a cylinder of mass M and cross-section a is made to float in it as shown in If the atmospheric pressure is P_0 find the pressure (a) at the top face B of the cylinder (b) at the bottom face C of the cylinder and (c ) at the base D of the beaker. (d) Can ever these pressure be equal ?

A solid cylinder of mass 20 kg rotates about its axis with angular velocity of 100 radian s^(-1) . The radius of the cylinder is 0.25m . The magnitude of the angular momentum of the cylinder about its axis of rotation is

A solid cylinder of length l and cross-sectional area A is made of a material whose resistivity depends on the distance r from the axis of the cylinder as rho = k//r^(2) where k is constant . The resistance of the cylinder is -

A solid cylinder rolls up an inclined plane of inclination theta with an initial velocity v . How far does the cylinder go up the plane ?

A cylinder of mass m and density rho hanging from a string is lowered into a vessel of cross-section area s containing a liquid of density sigma (lt rho) unit it is fully immersed. The increase in pressure at the bottom of the vessel is

If A is the area of cross section of conductor, v_(d) is the drift velocity of electrons and n is the number of electrons per unit volume, then current density through conductor is

A solid cylinder of mass 'M' and radius 'R' is rotating along its axis with angular velocity omega without friction. A particle of mass 'm' moving with velocity v collides aganist the cylinder and sticks to its rim. After the impact calculate angular velocity of cylinder .

Velocity of the centre of a small cylinder is v . There is no slipping anywhere. The velocity of the centre of the larger cylinder is