Suppose you have a classical system that consists of N particles moving in three dimensions. You calculate the entropy for the system using a phase space cell size ho and get the value So. a) Show that if you calculated the entropy using a cell size h₁ = ho/2, you would get the value S₁ = S₁ + 3Nk In2. b) Find the value you would get if you calculated the entropy using cell size aho, where a is a positive dimensionless constant.
Suppose you have a classical system that consists of N particles moving in three dimensions. You calculate the entropy for the system using a phase space cell size ho and get the value So. a) Show that if you calculated the entropy using a cell size h₁ = ho/2, you would get the value S₁ = S₁ + 3Nk In2. b) Find the value you would get if you calculated the entropy using cell size aho, where a is a positive dimensionless constant.
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![Suppose you have a classical system that consists of N particles moving in three dimensions.
You calculate the entropy for the system using a phase space cell size ho and get the value So.
a) Show that if you calculated the entropy using a cell size h₁ = ho/2, you would get the
value S₁ = S₁ + 3Nk In2.
b) Find the value you would get if you calculated the entropy using cell size aho, where a is
a positive dimensionless constant.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F613fe210-8890-4f5f-abe5-0cad6919891a%2F4c32083b-9646-4339-9170-cd97392b8453%2Fdeyq309_processed.png&w=3840&q=75)
Transcribed Image Text:Suppose you have a classical system that consists of N particles moving in three dimensions.
You calculate the entropy for the system using a phase space cell size ho and get the value So.
a) Show that if you calculated the entropy using a cell size h₁ = ho/2, you would get the
value S₁ = S₁ + 3Nk In2.
b) Find the value you would get if you calculated the entropy using cell size aho, where a is
a positive dimensionless constant.
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