A liquid of bulk modulus k is compressed by applying an external pressure such that its density increases by `0.01%.` The pressure applied on the liquid is

The freezing point of the liquid decreases when pressure is increased, if the liquid

A gas absorbs 100 calories of heat energy and is compressed from 10.0 L to 5.0 L by applying an external pressure of 2.0atm. The change in internal energy is

A solid sphere of radius R made of a material of bulk modulus K is surrounded by a liquid in a cylindrical container. A massless pistion of area A floats on the surface of the liquid. When a mass M is placed on the piston to compress the liquid the fractional change in the radius of the sphere, deltaR//R , is .............

The vapour pressure of a pure liquid A is 70 torr at 27^(@)C It forms and ideal solution with another liquid B. The mole fraction of B is 0.2 and the total vapour pressure of the solution is 84 torr at 27^@ C .the vapour pressure of pure liquid B at . the vapur pressure of pure liquid B at 27^(@)C is _____.

One mole of an ideal gas is compressed from 500 cm3 against a constant external pressure of 1.2 xx 10^5 Pa The work involved in the process is 36.0 J. Calculate the final volume.

A metal bar of mass 1.5 kg is heated at atmospheric pressure. Its temperature is increased from 30 °C to 60 °C. Then the work done in the process is (Volume expansion coefficient of the metal = 5xx10^(-5)^(@)C^(-1) , density of the metal =9xx10^3kgm^(-3) Atmospheric pressure =1xx10^5Pa )

To compress a liquid by 10% of its original volume, the pressure required is 2xx10^(5) atmosphere. The bulk modulus of liquid is

Consider a closed box of rigid walls so that the density of the air inside it is constant. On heating, the pressure of this enclosed air is increased from P_0 to P. It is now observed that sound travels 1.5 times faster than at pressure P_0 . Calculate P//P_0

A solid rubber ball is carried from the surface to the bottom of a 200 m deep pond as a result of which its volume decreases by 0.1 %. The denisty of pond water is 1.0xx10^(3)kg//m^(3). If g=10m//s^(2) then the bulk modulus of elasticity of rubber will be _______ in N//m^(2).