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Unformatted text preview: expression from it). (ii) Similarly, calculate what the multiplicity of system B will be for E= n ε 2. You bring into thermal contact systems A and B at energies E=nε each. What will be the equilibrium energies of A and B. What will be the final equilibrium temperature of the two systems? If you prefer dealing with actual numbers, consider n=1, ε =1 (Hint: For a discrete function y(x) you may use, dy/dx = [y n+1y n ]/[x n+1x n ])...
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This note was uploaded on 09/14/2009 for the course MCB 100A taught by Professor Kuryian during the Fall '09 term at Berkeley.
 Fall '09
 Kuryian

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