The partition function for a particle in a one-dimensional box and two-dimensional box is to be predicted. Concept introduction: Statistical thermodynamics is used to describe all possible configurations in a system at given physical quantities such as pressure, temperature and number of particles in the system. An important quantity in thermodynamics is partition function that is represented as, q ≡ ∑ i g i e − ∈ i / kT Where, • g i represents the degeneracy. • ∈ i represents the energy of i t h microstate. • k represents the Boltzmann constant with value 1.38 × 10 − 23 J / K . • T represents the temperature ( K ) . It is also called as canonical ensemble partition function.

Question

Consider a system at 250 K which has an infinite ladder of evenly spaced quantum states with an energy spacing of 0.25 kJ/mol. 1. The energy for level n=1 is kJ/mol. The minimum possible value of the partition function for this system is The average energy of this system in the classical limit is decimal] 2. 3. 4. The number of thermally populated states is kj/mol. [Answer rounded to 1 [Answer should be whole number]

Answer 1

Question

Chapter 17, Problem 17.41E

Interpretation Introduction

Interpretation:

The partition function for a particle in a one-dimensional box and two-dimensional box is to be predicted.

Concept introduction:

Statistical thermodynamics is used to describe all possible configurations in a system at given physical quantities such as pressure, temperature and number of particles in the system. An important quantity in thermodynamics is partition function that is represented as,

q≡∑igie−∈i/kT

Where,

• gi represents the degeneracy.

• ∈i represents the energy of ith microstate.

• k represents the Boltzmann constant with value 1.38×10−23 J/K.

• T represents the temperature (K).

It is also called as canonical ensemble partition function.

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