Pressure, P =

If P _(0)= Pressure, n= Density, h=height, and g=accelaration due to gravity then the atmospheric pressure =

A mass of ideal gas at pressure P is expanded isothermally to four times the original volume and then slowly compressed adiabatically to its original volume. Assuming gamma(=C_(P)//C_(V)) to be 1.5, find the new pressure of the gas.

Conider a given sample of an ideal gas (C_p / C_v = gamma ) having initial pressure (p_0) and volume (V_0) . (a) The gas is isothermally taken to a pressure (P_0 / 2 ) and from there adiabatically ta a pressure (p_0 / 2) and from there isothermally to a pressure (p_0 / 4 ) . find the volume.

A container contains hydrogen gas at pressure P and temperature T. Another identical container contains helium gas at pressure 2P and temperature T//2 . The ratio of the number of molecules of the two gases is

Express each of the following physical statements in the form of differential equation. (iii) For a certain substance, the rate of change of vapor pressure P with respect to temperature T is proportional to the vapor pressure and inversely proportional to the square of the temperature.

If p is the pressure of a gas and rho is its density, then dimension of velocity is given by ______ .

Show that (P^(-5//6)rho^(1//2)E^(1//3)) is of the dimension of time. Here P is the pressure, rho is the density and E is the energy of a bubble).