Use Stirling's approximation to show that the multiplicity of an Einstein solid, for any large values of N and q, is approximately q+N4/9+ NN N 2(N, q) = /2nq(q+N)/N The square root in the denominator is merely large, and can often be neglected. However, it is needed in Problem 2.22. (Hint: First show that 2 = ÊN N. Do not neglect the v27N in Stirling's approximation.)

Use Stirling's approximation to show that the multiplicity of an Einstein solid, for any large values of N and q, is approximately q+N4/9+ NN N 2(N, q) = /2nq(q+N)/N The square root in the denominator is merely large, and can often be neglected. However, it is needed in Problem 2.22. (Hint: First show that 2 = ÊN N. Do not neglect the v27N in Stirling's approximation.)

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Description: Solve the attachment Use Stirling's approximation to show that the multiplicity of anEinstein solid, for any large values of N and q, is approximatelyq+N4/9+ NNN2(N, q) =/2nq(q+N)/NThe square root in the denominator is merely large, and can often be

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Solve the attachment

Use Stirling's approximation to show that the multiplicity of an
Einstein solid, for any large values of N and q, is approximately
q+N4/9+ NN
N
2(N, q) =
/2nq(q+N)/N
The square root in the denominator is merely large, and can often be neglected.
However, it is needed in Problem 2.22. (Hint: First show that 2 = ÊN N.
Do not neglect the v27N in Stirling's approximation.)

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