A box is separated by a partition into two parts of equal volume. The left side of the box contains 500 molecules of nitrogen gas; the right side contains 100 molecules of oxygen gas. The two gases are at the same temperature. The partition is punctured, and equilibrium is eventually attained. Assume that the volume of the box is large enough for each gas to undergo a free expansion and not change temperature. (a) On average, how many molecules of each type will there be in either half of the box? (b) What is the change in entropy of the system when the partition is punctured? (c) What is the probability that the molecules will be found in the same distribution as they were before the partition was punctured – that is, 500 nitrogen molecules in the left half and 100 oxygen molecules in the right half?
A box is separated by a partition into two parts of equal volume. The left side of the box contains 500 molecules of nitrogen gas; the right side contains 100 molecules of oxygen gas. The two gases are at the same temperature. The partition is punctured, and equilibrium is eventually attained. Assume that the volume of the box is large enough for each gas to undergo a free expansion and not change temperature. (a) On average, how many molecules of each type will there be in either half of the box? (b) What is the change in entropy of the system when the partition is punctured? (c) What is the probability that the molecules will be found in the same distribution as they were before the partition was punctured – that is, 500 nitrogen molecules in the left half and 100 oxygen molecules in the right half?
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A box is separated by a partition into two parts of equal volume. The left side of the box
contains 500 molecules of nitrogen gas; the right side contains 100 molecules of oxygen gas.
The two gases are at the same temperature. The partition is punctured, and equilibrium is
eventually attained. Assume that the volume of the box is large enough for each gas to
undergo a free expansion and not change temperature. (a) On average, how many molecules
of each type will there be in either half of the box? (b) What is the change in entropy of the
system when the partition is punctured? (c) What is the probability that the molecules will be
found in the same distribution as they were before the partition was punctured – that is, 500
nitrogen molecules in the left half and 100 oxygen molecules in the right half?
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