Problem 1: A box contains N = 50 identical gas molecules divided between its two halves. What are: (a) the multiplicity of the equilibrium configuration, (b) the total number of possible microstates, and (c) the percentage of the time the system spends in the equilibrium configuration? (d) How do the answers change when N = 200 instead?
Problem 1: A box contains N = 50 identical gas molecules divided between its two halves. What are: (a) the multiplicity of the equilibrium configuration, (b) the total number of possible microstates, and (c) the percentage of the time the system spends in the equilibrium configuration? (d) How do the answers change when N = 200 instead?
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