Consider a system of two Einstein solids, A and B, with NA = 130, Ng = 70, and qtotal = 60. For an Einstein solid, the multiplicity function is given as (a+N+1)! q!(N- 1)! g(N,q) = 2nq(q + N) a) Determine the number of energy units for solidA, GA, for the: I most probable configuration. L least probable configuration b) Use the Einstein multiplicity function to calculate the total number of microstates for the entire two solid system when the two solids are in the i most probable configuration ii least probable configuration
Consider a system of two Einstein solids, A and B, with NA = 130, Ng = 70, and qtotal = 60. For an Einstein solid, the multiplicity function is given as (a+N+1)! q!(N- 1)! g(N,q) = 2nq(q + N) a) Determine the number of energy units for solidA, GA, for the: I most probable configuration. L least probable configuration b) Use the Einstein multiplicity function to calculate the total number of microstates for the entire two solid system when the two solids are in the i most probable configuration ii least probable configuration
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