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The first four 2-D rotational wave functions in terms of sine and cosine using Euler’s identity are to be stated. Concept introduction: The wave function for 2-D rotational motion is given below. Ψ m = 1 2 π e i m ϕ Where, Ψ m represents the wave function dependent on quantum number m . The values of m start from 0 . Also, it can take up both negative and positive integral values. According to Euler’s identity, e i m ϕ can be written as cos ϕ + i sin ϕ .

The first four 2-D rotational wave functions in terms of sine and cosine using Euler’s identity are to be stated. Concept introduction: The wave function for 2-D rotational motion is given below. Ψ m = 1 2 π e i m ϕ Where, Ψ m represents the wave function dependent on quantum number m . The values of m start from 0 . Also, it can take up both negative and positive integral values. According to Euler’s identity, e i m ϕ can be written as cos ϕ + i sin ϕ .

Solution Summary: The author explains that the first four 2-D rotational wave functions in terms of sine and cosine using Euler's identity are to be stated.

Physical Chemistry

Physical Chemistry

2nd Edition

ISBN: 9781133958437

Author: Ball, David W. (david Warren), BAER, Tomas

Publisher: Wadsworth 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 11, Problem 11.43E

Interpretation Introduction

Interpretation:

The first four 2-D rotational wave functions in terms of sine and cosine using Euler’s identity are to be stated.

Concept introduction:

The wave function for 2-D rotational motion is given below.

Ψm=12πeimϕ

Where, Ψm represents the wave function dependent on quantum number m. The values of m start from 0. Also, it can take up both negative and positive integral values.

According to Euler’s identity, eimϕ can be written as cos ϕ+isin ϕ.

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Chapter 11, Problem 11.42E

Chapter 11, Problem 11.44E

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