Bundle: Physical Chemistry, 2nd + Student Solutions Manual
Bundle: Physical Chemistry, 2nd + Student Solutions Manual
2nd Edition
ISBN: 9781285257594
Author: David W. Ball
Publisher: Cengage Learning
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Techniques and applications of quantum theory
Quantum theory, often known as quantum physics, is the foundation of modern physics and encompasses the nature and behavior of matter and energy at the atomic and molecular levels. As the exact nature and behavior of atomic and subatomic particles are im…
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Chapter 10, Problem 10.79E
Interpretation Introduction

Interpretation:

The degeneracies of all levels for a cubical box from the lowest-energy wavefunction, described by the set of quantum numbers (1,1,1) to the wavefunction described by the quantum number set (4,4,4) are to be stated.

Concept introduction:

The Schrödinger equation is used to find the allowed energy levels for electronic transitions in the quantum mechanics. It is generally expressed as follows.

HΨ=EΨ

Where,

H is the Hamiltonian operator.

Ψ is the wavefunction.

E is the energy.

The energy obtained after applying the operator on wavefunction is known as the eigen value for the wavefunction.

Expert Solution & Answer
Check Mark

Answer to Problem 10.79E

The degeneracies of all levels for a cubical box from the lowest-energy wavefunction, described by the set of quantum numbers (1,1,1) to the wavefunction described by the quantum number set (4,4,4) are given below.

(1,1,2),(2,1,1),(1,2,1)

(2,1,2),(2,2,1),(1,2,2)

(3,1,1),(1,3,1),(1,1,3)

(3,2,1),(2,3,1),(3,1,2),(2,1,3),(1,2,3),(1,3,2)

(3,2,2),(2,3,2),(2,2,3)

(4,1,1),(1,4,1),(1,1,4)

(3,1,3),(3,3,1),(1,3,3)

(4,2,1),(4,1,2),(2,1,4),(2,4,1),(1,2,4),(1,4,2)

(3,3,2),(3,2,3),(2,3,3)

(4,2,2),(2,4,2),(2,2,4)

(4,3,1),(4,1,3),(3,1,4),(3,4,1),(1,3,4),(1,4,3)

(1,1,5),(5,1,1),(1,5,1),(3,3,3)

(4,3,2),(4,2,3),(3,2,4),(3,4,2),(2,3,4),(2,4,3)

(4,4,1),(4,1,4),(1,4,4),(5,2,2),(2,5,2),(2,2,5)

(4,3,3),(3,4,3),(3,3,4)

(4,2,4),(4,4,2),(2,4,4)

(4,4,3),(4,3,4),(3,4,4),(6,2,1),(6,1,2),(2,1,6),(2,6,1),(1,2,6),(1,6,2)

Explanation of Solution

The formula to calculate energy for an electron confined to a three dimensional box is given below.

E=2π22m(nx2a2+ny2b2+nz2c2) …(1)

Substitute the values in the equation (1) for the three-dimensional box having same dimensions and n values to be 1,1,1 as follows.

E1,1,1=2π22m(1a2+1a2+1a2)=32π22ma2

Similarly, other values for the energy by changing quantum numbers are calculated as follows.

E1,2,1=2π22m(1a2+4a2+1a2)=62π22ma2

E2,1,1=2π22m(4a2+1a2+1a2)=62π22ma2

E1,1,2=2π22m(1a2+1a2+4a2)=62π22ma2

The values of energies obtained for higher values of n are as follows.

E2,2,2=2π22m(4a2+4a2+4a2)=122π22ma2

E2,1,2=92π22ma2

E1,2,2=92π22ma2

E2,2,1=92π22ma2

E3,1,1=112π22ma2

E3,1,2=142π22ma2

E3,2,2=172π22ma2

E3,3,2=222π22ma2

E3,3,3=272π22ma2

E5,1,1=272π22ma2

E4,1,1=182π22ma2

E1,5,1=272π22ma2

E1,1,5=272π22ma2

E3,3,1=192π22ma2

E4,2,1=212π22ma2

E4,2,2=242π22ma2

E4,3,1=262π22ma2

E4,4,1=332π22ma2

E5,2,2=332π22ma2

E4,3,3=342π22ma2

E5,3,1=352π22ma2

E4,4,2=362π22ma2

E5,3,2=382π22ma2

E6,1,1=382π22ma2

E4,4,3=412π22ma2

E6,2,1=412π22ma2

E5,4,1=422π22ma2

E5,3,3=332π22ma2

E6,2,2=442π22ma2

E5,4,2=452π22ma2

E6,3,1=462π22ma2

E4,4,4=482π22ma2

The set of quantum numbers degenerate wavefunctions are as follows:

(1,1,2),(2,1,1),(1,2,1)

(2,1,2),(2,2,1),(1,2,2)

(3,1,1),(1,3,1),(1,1,3)

(3,2,1),(2,3,1),(3,1,2),(2,1,3),(1,2,3),(1,3,2)

(3,2,2),(2,3,2),(2,2,3)

(4,1,1),(1,4,1),(1,1,4)

(3,1,3),(3,3,1),(1,3,3)

(4,2,1),(4,1,2),(2,1,4),(2,4,1),(1,2,4),(1,4,2)

(3,3,2),(3,2,3),(2,3,3)

(4,2,2),(2,4,2),(2,2,4)

(4,3,1),(4,1,3),(3,1,4),(3,4,1),(1,3,4),(1,4,3)

(1,1,5),(5,1,1),(1,5,1),(3,3,3)

(4,3,2),(4,2,3),(3,2,4),(3,4,2),(2,3,4),(2,4,3)

(4,4,1),(4,1,4),(1,4,4),(5,2,2),(2,5,2),(2,2,5)

(4,3,3),(3,4,3),(3,3,4)

(4,2,4),(4,4,2),(2,4,4)

(4,4,3),(4,3,4),(3,4,4),(6,2,1),(6,1,2),(2,1,6),(2,6,1),(1,2,6),(1,6,2)

Conclusion

The degeneracies of all levels for a cubical box from the lowest-energy wavefunction, described by the set of quantum numbers (1,1,1) to the wavefunction described by the quantum number set (4,4,4) are given below.

(1,1,2),(2,1,1),(1,2,1)

(2,1,2),(2,2,1),(1,2,2)

(3,1,1),(1,3,1),(1,1,3)

(3,2,1),(2,3,1),(3,1,2),(2,1,3),(1,2,3),(1,3,2)

(3,2,2),(2,3,2),(2,2,3)

(4,1,1),(1,4,1),(1,1,4)

(3,1,3),(3,3,1),(1,3,3)

(4,2,1),(4,1,2),(2,1,4),(2,4,1),(1,2,4),(1,4,2)

(3,3,2),(3,2,3),(2,3,3)

(4,2,2),(2,4,2),(2,2,4)

(4,3,1),(4,1,3),(3,1,4),(3,4,1),(1,3,4),(1,4,3)

(1,1,5),(5,1,1),(1,5,1),(3,3,3)

(4,3,2),(4,2,3),(3,2,4),(3,4,2),(2,3,4),(2,4,3)

(4,4,1),(4,1,4),(1,4,4),(5,2,2),(2,5,2),(2,2,5)

(4,3,3),(3,4,3),(3,3,4)

(4,2,4),(4,4,2),(2,4,4)

(4,4,3),(4,3,4),(3,4,4),(6,2,1),(6,1,2),(2,1,6),(2,6,1),(1,2,6),(1,6,2)

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Chapter 10 Solutions

Bundle: Physical Chemistry, 2nd + Student Solutions Manual

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