Consider a classical gas of N atoms.The Helmholtz free energy of a quantum gas made of Nindistinguishable atoms, where N is a large number, is equaltoF = -NkgT 1+ In3+-In(2rmkBT\]h2where m is the mass of the atoms, V the volume of thecontainer, T the temperature of the gas, kg is Boltzmann'sconstant and h is Planck's constant.Use this function to derive the equation of state for the idealgas.

Given that:F=-NkBT[1+ln(VN)+32ln (2πmkBTh2)]To derive the equation of state of idea gas

Consider a classical gas of N atoms. The Helmholtz free energy of a quantum gas made of N indistinguishable atoms, where N is a large number, is equal to F = -Nk,T|1+ In () +in 3. (2itmkpT\| h² where m is the mass of the atoms, V the volume of the container, T the temperature of the gas, kɛ is Boltzmann's constant and h is Planck's constant. Use this function to derive the equation of state for the ideal

Consider a classical gas of N atoms. The Helmholtz free energy of a quantum gas made of N indistinguishable atoms, where N is a large number, is equal to F = -Nk,T|1+ In () +in 3. (2itmkpT\| h² where m is the mass of the atoms, V the volume of the container, T the temperature of the gas, kɛ is Boltzmann's constant and h is Planck's constant. Use this function to derive the equation of state for the ideal