A solid glass hemisphere of density d and radius R lies (with curved surface of hemisphere below the flat surface) at the bottom of a tank filled with water of density `rho` such that the flat surface of hemisphere is H depth below the liquid surface. Weight of water + tank is `W_(1)` and that of hemisphere is`'W_(2)`. W Then choose the incorrect options

The pressure at depth h below the surface of a liquid of density rho open to the atmosphere is

If two solid hemispheres of same base radius r are joined together along their bases, then the curved surface area of the this new solid is

A glass hemisphere of radius R and of material having refractive index 1.5 is silvered on its flat face as shown in figure., A small object of height h is located at a distance 2R from the surface of hemisphere as shown in the figure. The final image will form.

A beaker containing a liquid of density rho moves up with an acceleration a . The pressure due to the liquid at a depth h below the free surface of the liquid is.

A glass hemisphere of radius 10 cm and mu=1.5 is silvered over its curved surface. There is an air bubble in the glass 5 cms from the plane surface along the axis. Find the position of the images of this bubble seen by observer looking along the axis into the flat surface of the atmosphere.

A hemispherical glass body of radius 10 cm and refractive index 1.5 is silvered on its curved surface . A small air bubble is 6 cm below the flat surface inside it along the axis. The position of the image of the air bubble made by the mirror is seen :

A smooth hemisphere of mass M is kept on a smooth surface. A block of mass m ( = M//3) is kept on the top of the hemisphere as shown in the figure. The hemisphere is displaced slightly ang both the hemisphere and the block starts moving. At an angle theta with the vertical ( subtended by the block at the centre of the hemisphere ) , the relation between the velocity of the block ( V) and the velocity of the hemishere ( v_(0) ) is (V is the velocity of the block w.r.t. the hemisphere at that instant . )

A hollow sphere has a small hole in it. On lowering the sphere in a tank of water, it is observed that water enters into the hollow sphere at a depth of 40 cm below the surface. Surface tension of water is 7 xx 10^(-2) N//m . The diameter of the hole is

A solid hemisphere of radius R is made to just sink in a liquid of density rho . Find a. the vertical thrust on the curved surface b. the vertical thrust on the flat surface c. the side thrust on the hemisphere. d. the total hydrostatic force acting on the hemisphere.

Water is filled in a capillary tube of radius R. If the surface of water is hemispherical (theta = 0) , then find pressure at a point 'A' which is at h depth below the surface.