For `n` moles of ideal gas, the equation of state may be written as

Write ideal gas equation.

For two mole of an ideal gas, the correct relation is :

Figure shows the adiabatic curve for n moles of an ideal gas, the bulk modulus for the gas corresponding to the point P will be

Figure shows the adiabatic curve for n moles of an ideal gas, the bulk modulus for the gas corresponding to the point P will be

Figure illustrates a cycle conducted with n moles of an ideal gas. In the states a and b the gas temperatures are T_(a) and T_(b) respectively. Temperature of the gas in the state C is ltbr)

Two ideal monoatomic and diatomic gases are mixed with one another to form an ideal gas mixture. The equation of the adiabatic process of the mixture is PV^(gamma)= constant, where gamma=(11)/(7) If n_(1) and n_(2) are the number of moles of the monoatomic and diatomic gases in the mixture respectively, find the ratio (n_(1))/(n_(2))

A rigid container of negligible heat capacity contains one mole of an ideal gas. The temperatures of the gas increases by 1^@C if 3.0 cal of heat is added to it. The gas may be

One mole of an ideal gas is taken from state A to state B by three different processes (a) ACB , (b) ADB and (c ) AEB as shown in the P - V diagram. The heat absorbed by the gas is

One mole of an ideal gas is taken from state A to state B by three different processes (a) ACB , (b) ADB and (c ) AEB as shown in the P - V diagram. The heat absorbed by the gas is

The ideal gas equation for an adiabatic process is