A given quantity of a gas is at pressure `P` and absolute temperature `T`. The isothermal bulk modulus of the gas is.

A given quantity of a ideal gas is at pressure P and absolute temperature T. The isothermal bulk modulus of the gas is

A given quantity of a ideal gas is at pressure P and absolute temperature T. The isothermal bulk modulus of the gas is

A given sample of an ideal gas occupise a volume V at a pressure p and absolute temperature T.The mass of each molecule of the gas is m. Which of the following is the density of the gas ?

A sample of an ideal gas occupies a volume V at pressure P and absolute temperature T. The masss of each molecule is m, then the density of the gas is

A gas enclosed in a vessel has pressure P, volume V and absolute temperature T, write the formula for number of molecule N of the gas.

32 g of O_(2) is contained in a cubical container of side 1 m and maintained at a temperature of 127^(@)C . The isothermal bulk modulus of elasticity of the gas is (universal gas constant = R)

Assertion Bulk modulus of elasticity of gases is pressure dependent. Reason More the pressure of gas, more is the Bulk modulus of elasticity of gas.

Two idential container joined by a small pipe initially contain the same gas at pressure p_(0) and absolute temperature T_(0) . One container is now maintained at the same temperature while the other is heated to 2T_(0) . The common pressure of the gas

A gas undergoes a process in which its pressure P and volume V are related as VP^(n) = constant. The bulk modulus of the gas in the process is:

A gas follows a process TV^(n-1)=const ant , where T= absolute temperature of the gas and V= volume of the gas. The bulk modulus of the gas in the process is given by