1. Consider a system of N independent identical localized particles on a lattice at temperature T (one particle per lattice site). Each particle has energy eigenvalues €, = acy gn = n+1, n = 0,1, 2, 3, ... o. Here A is a positive constant with the dimension of a) Show that the single-particle canonical partition function z is given by z = b) Calculate the chemical potential for this N-particle system in terms of z. nA, with degener- energy. [1-e-A/(kT)]-2,
1. Consider a system of N independent identical localized particles on a lattice at temperature T (one particle per lattice site). Each particle has energy eigenvalues €, = acy gn = n+1, n = 0,1, 2, 3, ... o. Here A is a positive constant with the dimension of a) Show that the single-particle canonical partition function z is given by z = b) Calculate the chemical potential for this N-particle system in terms of z. nA, with degener- energy. [1-e-A/(kT)]-2,
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![1. Consider a system of N independent identical localized particles on a lattice at temperature
T (one particle per lattice site). Each particle has energy eigenvalues e, =
acy gn = n+1, n= 0, 1, 2, 3, ...o. Here A is a positive constant with the dimension of energy.
a) Show that the single-particle canonical partition function z is given by z =
b) Calculate the chemical potential for this N-particle system in terms of z.
nA, with degener-
[1-e-A/(kT)]-2.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F022654e1-be4a-45b5-b233-3d8dac2643d3%2Ffa160458-e9fb-44c3-a168-de6a79cfaa12%2Fy9mqo67_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1. Consider a system of N independent identical localized particles on a lattice at temperature
T (one particle per lattice site). Each particle has energy eigenvalues e, =
acy gn = n+1, n= 0, 1, 2, 3, ...o. Here A is a positive constant with the dimension of energy.
a) Show that the single-particle canonical partition function z is given by z =
b) Calculate the chemical potential for this N-particle system in terms of z.
nA, with degener-
[1-e-A/(kT)]-2.
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