For an ideal monoatomic gas, molar heat capacity at constant volume (C_(v)) is
For one mole of an ideal gas (C_(p) and C_(v) are molar heat capacities at constant presure and constant volume respectively)
One mole of an ideal monoatomic gas (gamma = (5)/(3)) is mixed with one mole of a diatomic gas (gamma=(7)/(5)) . ( gamma denotes the ratio of specific heat at constant pressure, to that at constant volume) find gamma for the mixture?
One mole of an ideal monoatomic gas is mixed with one mole of an ideal diatomic gas. The molar specific heat of the mixture at constant volume is (in Calories )
A gas mixture contain one mole He gas and one mole O _(2) gas. Find the ratio of specific heat at constant pressure to that at constant volume of the gasseous mixture -
Molar heat capacity of an ideal gas at constant volume is given by C_(V)=2xx10^(-2)J (in Joule). If 3.5 mole of hits ideal gas are heated at constant volume from 300K to 400K the change in internal energy will be
Assertion: Molar specific heat at constant volume of an ideal diatomic gas is [(3)/(2)R+R] . Reason: On heating 1 mole an ideal diatomic gas at constant pressure of 1^(@)C rise in temperature, the increase in internal energy of gas is (7)/(2)R .
Two moles the an ideal gas with C_(v) = (3)/(2)R are mixed with 3 of anthoer ideal gas with C_(v) = (5)/(2) R . The value of the C_(p) for the mixture is :
