A uniformly tapering vessel is filled with a liquid of density `900 kg//m^3`. The force that acts on the base of the vessel due to the liquid is `(g=10 ms^-2)`

The height to which a cylindrical vessel is to be filled with a homogenous liquid, presses the side of the vessel equal to the force exerted by the liquid on the bottom of the vessel, is equal to

Water is filled in a cylindrical container to a height of 3m . The ratio of the cross-sectional area of the orifice and the beaker is 0.1 . The square of the speed of the liquid coming out from the orifice is (g=10m//s^(2)) .

A vessel is filled with water and kerosence oil. The vessel has a small hole in the bottom. Neglecting viscosity if the thickness of water layer is h_(1) and kerosens layer is h_(2) then the velocity v of flow of water will be (density of water is rho_(1) b g/c c and that of kerosense is rho_(2) g/c c

The bulk modulus of a gas is 6xx10^(3) N//m^(2). The additional pressure needed to reduce the volume of the liquid by 10% is

The given figure shows a streamline flow of a non-viscous liquid having density 1000 kg//m^3 .The cross sectional area at point A is 2cm^2 and at point B is 1mm^2 .The speed of liquid at the point A is 5 cm//s . Both points A and B are at the same horizontal level. Calculate the difference in pressure at A and B.

The density of the gas is 6 xx 10^-2 kg/m^3 and r.m.s. velocity 500 m/s . Then the pressure exerted by the gas on the walls of the vessel is

A capillary tube 0.14mm in diameter has its lower end immersed in a liquid of surface tension 0.054 N//m . If the density of a liquid is 860 kg//m^3 , find the height to which the liquid rises in the tube.(Angle of contract of liquid with glass is 28^@ and g=9.8 m//s^2 ).

An object of mass 5kg falls from rest through a verticle distance of 20m and reaches a velocity of 10ms^-1 . How much work is done by the push of the air on the object? (g = 10 ms^2)

The length of the string of a conical pendulam is 10 m and it has a bob of mass 50 g. The angle that the string makes with the vertical is 30^@ . If the bob covers one revolution is 3 s, then the corresponding centripetal force acting on the bob will be