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Is degrees of freedom applicable to both real and ideal gases?
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Is degrees of freedom applicable to both real and ideal gases?
These are produced only at high temperatures degrees of freedom for non. atomic gas a monatomic. gas molecule can move linearly in any direction along three coordinate axes hence. its degrees of freedom is FD is equal.
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Is degrees of freedom applicable to both real and ideal gases?
Introduction

Degrees of freedom is a concept used in thermodynamics to describe the number of independent variables required to define the state of a system. It is applicable to both real and ideal gases, although the specific degrees of freedom differ between the two.

Real Gases

Real gases are composed of molecules that interact with each other through intermolecular forces. These forces cause deviations from the ideal gas behavior, particularly at high pressures and low temperatures. The degrees of freedom for a real gas depend on the number of particles in the system and the nature of their interactions.

Translational Degrees of Freedom

Translational degrees of freedom refer to the motion of the gas molecules as a whole. In a three-dimensional space, each molecule has three translational degrees of freedom corresponding to its motion along the x, y, and z axes. For a system with N molecules, the total number of translational degrees of freedom is given by 3N.

Rotational Degrees of Freedom

Rotational degrees of freedom describe the ability of gas molecules to rotate around different axes. Linear molecules have two rotational degrees of freedom, while nonlinear molecules have three. The total number of rotational degrees of freedom for a system with N molecules can be calculated using the formula 3N - k, where k is the number of linear molecules.

Vibrational Degrees of Freedom

Vibrational degrees of freedom arise from the vibrational motion of gas molecules. However, for most gases, vibrational degrees of freedom are negligible at normal temperatures and pressures. They become significant at very low temperatures or for gases with complex molecular structures.

Ideal Gases

Ideal gases are hypothetical gases that follow the ideal gas law under all conditions. They do not interact with each other, and their behavior is solely determined by their kinetic energy. In an ideal gas, the molecules are considered point masses with no size or intermolecular forces.

Translational Degrees of Freedom

Similar to real gases, ideal gases also have three translational degrees of freedom for each molecule. The total number of translational degrees of freedom in an ideal gas is given by 3N, where N is the number of molecules.

Conclusion

In conclusion, degrees of freedom are applicable to both real and ideal gases. Real gases have additional degrees of freedom associated with their intermolecular interactions, such as rotational and vibrational degrees of freedom. On the other hand, ideal gases have only translational degrees of freedom since they do not experience intermolecular forces. Understanding the degrees of freedom is crucial in analyzing the thermodynamic behavior of gases and predicting their properties under different conditions.
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Is degrees of freedom applicable to both real and ideal gases?
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