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The number of independent variables or coordinates needed to describe the motion of a particle is called the degree of freedom.

  • Total number of DOF = 3N (where N = atomicity)
  • No. of translational DOF (ft) = 3 (for all gases)
  • No. of rotational DOF (fr) = 0 (for monoatomic gas)
    No. of rotational DOF (fr) = 2 (for diatomic gas)
    No. of rotational DOF (fr) = 2 (for polyatomic linear molecules)
    No. of rotational DOF (fr) = 3 (for polyatomic nonlinear molecule)
  • No. of vibrational dof (fv) = 3N - f- fr

In a monoatomic species, rotational and vibrational modes of motion are absent. Hence three degrees of freedom corresponds to three translational motion along three different axes.
For a diatomic molecule, total degree of freedom = 3 × 2 = 6

Break up of the Degree of Freedom: 
(i) 3 translation degrees of freedom representing translation motion of center of mass in three independent directions.
Degree of Freedom | Physical Chemistry for NEET(ii) Two possible axes of rotation, hence two rotational degrees of freedom.
Degree of Freedom | Physical Chemistry for NEET(iii) One vibration degree of freedom.
Degree of Freedom | Physical Chemistry for NEET

Vibrational DOF is active only at high temperatures.

Q. Find the total degree of freedom and break up as translational, rotational, or vibrational DOFs in following cases.
(i) O = C = O
(ii)Degree of Freedom | Physical Chemistry for NEET
(iii) He
(iv) NH3
Solution.
(i) CO2: Total dof = 3 x 3 = 9
Translational = 3
Rotational = 2 (∵ linear molecule)
Vibrational = 4

(ii) SO2: Total dof = 3 x 3 = 9
Translational = 3
Rotational = 3 (∵ Bent molecule)
Vibrational = 3

(iii) He: Total dof = 3 (∵ Monoatomic molecule)
Translational = 3 

(iv) NH3: Total dof = 3 x 4 = 12
Translational = 3
Rotational = 3 (∵ non linear molecule)
Vibrational = 6

Law of Equipartition of Energy

Energy equal to  ½ kT is associated with each translational and rotational degree of freedom per ideal gas molecule.
Energy equal to kT is associated with each vibrational degree of freedom per ideal gas molecule.
Where k = R/NA Boltzmann constant

Degree of Freedom | Physical Chemistry for NEET
∴ For n moles,

Degree of Freedom | Physical Chemistry for NEET
On ignoring vibrational degree of freedom

Degree of Freedom | Physical Chemistry for NEET

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FAQs on Degree of Freedom - Physical Chemistry for NEET

1. What is the Law of Equipartition of Energy?
Ans. The Law of Equipartition of Energy states that in thermal equilibrium, the total energy of a system is evenly distributed among all the different degrees of freedom of its constituent particles. Each degree of freedom contributes an equal amount of energy, known as the average kinetic energy.
2. How does the Law of Equipartition of Energy relate to temperature?
Ans. The Law of Equipartition of Energy states that the average kinetic energy of a particle is directly proportional to the temperature of the system. As the temperature increases, the average kinetic energy of the particles also increases, leading to a higher distribution of energy among the degrees of freedom.
3. What are degrees of freedom in the context of the Law of Equipartition of Energy?
Ans. Degrees of freedom refer to the different ways in which a particle can store and distribute energy. In the context of the Law of Equipartition of Energy, it refers to the various modes of motion, such as translational, rotational, and vibrational, that a particle can possess.
4. How does the Law of Equipartition of Energy apply to gases?
Ans. The Law of Equipartition of Energy applies to gases by considering the three degrees of freedom associated with their motion: translational, rotational, and vibrational. Each degree of freedom contributes an equal amount of energy, and for gases, the majority of the energy is distributed among the translational degrees of freedom.
5. What are the implications of the Law of Equipartition of Energy in different fields of study?
Ans. The Law of Equipartition of Energy has significant implications in various fields of study. In thermodynamics, it helps explain the relationship between temperature and energy distribution. In statistical mechanics, it provides a basis for calculating the thermodynamic properties of systems. In quantum mechanics, it helps understand the behavior of particles at low temperatures and the limitations of classical physics. Lastly, in chemistry and materials science, it aids in analyzing the vibrational modes of molecules and the thermal properties of materials.
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