(a) Explanation Given data: Well is of cubic shape of side length L and the number of particles are 15 Formula Used: E n x , n y , n z = ( n x 2 + n y 2 + n z 2 ) π 2 ℏ 2 2 m L 2 Concept Used: The states in order of increasing ( n x 2 + n y 2 + n z 2 ) are listed in the following table, which can be enumerated as shown, placing two particles in each level till we reach the total of 15 particles. Energy level number ( n x , n y , n z ) ( n x 2 + n y 2 + n z 2 ) Number of particles placed in level 1 1 , 1 , 1 3 2 2 2 , 1 , 1 6 2 3 1 , 2 , 1 6 2 4 1 , 1 , 2 6 2 5 1 , 2 , 2 9 2 6 2 , 1 , 2 9 (b) To determine Position of particle where highest energy point occurs

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Author: Randy Harris

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Schrödinger equation

Schrödinger equation is a prominent equation in quantum mechanics. This equation is used to predict the behavior of quantum states or quantum particles. In quantum mechanics, the particles are treated as waves. A quantity called wave function is used to …

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Chapter 7, Problem 25E

(a)

To determine

Total possible lowest energy

(b)

To determine

Position of particle where highest energy point occurs

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Chapter 7, Problem 24E

Chapter 7, Problem 26E

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Total possible lowest energy

Solution Summary: The author concludes that the lowest possible energy is 107222mL2. The highest energy point occurs at the midpoint of the well.

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Total possible lowest energy

Position of particle where highest energy point occurs

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Chapter 7 Solutions