An ideal gas of adiabatic exponent `gamma`, expands according to law PV= `beta` (where `beta` is the positive constant). For this process the compressibility of the gas is

An ideal gas has adiabatic exponenty. It expands according to the law P = alpha V, where is alpha constant. For this process, the Bulk modulus of the gas is

An ideal gas whose adiabatic exponent gamma is expanded according to the law P=alphaV , where alpha isa constant the initial volume of the gas is equal to V_(@) . As a result of expansion, the volume increases 4 times. Select the correct option for above information.

An ideal gas whose adiabatic exponent equals gamma is expanded according to the law p = alpha V , where alpha is a constant. The initial volume of the gas is equal to V_0 . As a result of expansion the volume increases eta times. Find : (a) The incident of the internal energy of the gas , (b) the work performed by the gas , ( c) the molar heat capacity of the gas in the process.

The volume of one mole of an ideal gas with adiabatic exponent gamma=1.4 is vaned according to law V=a//T where 'a' is a constant. Find amount of heat absorbed by gas in this process if gas temperature increases by 100 K.

The volume of one mode of an ideal gas with adiabatic exponent gamma is varied according to the law V = a//T , where a is constant . Find the amount of heat obtained by the gas in this process, if the temperature is increased by Delta T .

An ideal gas whose adiabatic exponent is gamma is expanded according to the relation P=alpha V .The molar specific heat of the process is (alpha is a positive constant)

An ideal gas whose adiabatic exponent equals gamma is expanded so that Delta Q+Delta U=0 . Then the equation of the process in the variables T and V is

An ideal gas expands according to the law PV^(3//2) =constant We conclude that

In a process, temperature and volume of one mole of an ideal monoatomic gas are varied according to the relation VT= K, where K is a constant. In this process the temperataure of the gas is increased by DeltaT . The amount of heat absorbed by gas is (R is gas constant).

An ideal gas expands according to the law pV^(2)= constant (a) Is it heated or cooled ? (b) What is the molar heat capacity in this process?