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Before you start, ask yourself the following questions: what is the equivalent of volume in 2-D? and what is pressure in 2-D? It is also worth understanding what is the number of degrees of freedom in that situation. Following our derivation of the multiplicity of an ideal gas in 3-D, find the multiplicity of a two dimensional ideal gas. Find an expression for the entropy of the system in terms of the macroscopic variables Find the temperature Find the 2-D pressure of the system Find the total energy as a function of the temperature Find the equation of state of the system Do you think your results violate the theorem of equipartition of energy?

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Before you start, ask yourself the following questions: what is the equivalent of volume in 2-D? and what is pressure in 2-D? It is also worth understanding what is the number of degrees of freedom in that situation. Following our derivation of the multiplicity of an ideal gas in 3-D, find the multiplicity of a two dimensional ideal gas. Find an expression for the entropy of the system in terms of the macroscopic variables Find the temperature Find the 2-D pressure of the system Find the total energy as a function of the temperature Find the equation of state of the system Do you think your results violate the theorem of equipartition of energy?
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Question Text
Before you start, ask yourself the following questions: what is the equivalent of volume in 2-D? and what is pressure in 2-D? It is also worth understanding what is the number of degrees of freedom in that situation. Following our derivation of the multiplicity of an ideal gas in 3-D, find the multiplicity of a two dimensional ideal gas. Find an expression for the entropy of the system in terms of the macroscopic variables Find the temperature Find the 2-D pressure of the system Find the total energy as a function of the temperature Find the equation of state of the system Do you think your results violate the theorem of equipartition of energy?
TopicAll topics
SubjectPhysics
ClassClass 11