Chemical Principles
Chemical Principles
8th Edition
ISBN: 9781305581982
Author: Steven S. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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Quantum Chemistry
Quantum chemistry deals with the properties of chemical systems and their reactions. The branch of chemistry which is more concerned with quantum chemistry is physical chemistry. It is a more sophisticated field of theoretical physics which is concerned …
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Chapter 12, Problem 145AE

(a)

Interpretation Introduction

Interpretation:Whether set of quantum numbers that include n equal to 3, l equal to 2, ml equal to 2is allowed set or not should be identified and incorrect set should be pointed out.

Concept introduction:Energy, size, shape, and orientation of atomic orbital are determined with help of some numbers. These numbers are called quantum numbers and are obtained from solution of Schrodinger equation of hydrogen atom by application of boundary conditions.

Below mentioned are four quantum numbers.

1. Principal Quantum Number

It is represented by n . This quantum number is related to size and energy of different atomic orbitals. With increase in value of n , size of orbital becomes larger and electron is present farther from atomic nucleus for longer time.

2. Angular Momentum Quantum Number

It is represented by l . It describes angular momentum of electron in any specific atomic orbital. Shape of orbitals is determined by this quantum number. It can have integral values from 0 to (n1) .

Designation of orbitals on basis of different l values is as follows:

  Value of l0123Orbitalspdf

3. Magnetic Quantum Number

This quantum number is denoted by ml . It describes orientation of angular momentum associated with atomic orbital. Its value ranges from l to +l . Total values of magnetic quantum number is governed by 2l+1

4. Spin Quantum Number

This quantum number is represented by ms . It indicates direction of electron spin. It can either +12 or 12 .

(a)

Expert Solution
Check Mark

Explanation of Solution

For a given value of principal quantum number n allowed values of l range from 0 to n1 , therefore for n=3 the permitted values of azimuthal quantum number must range from 0 to 2. Therefore l=2 is possible and allowed.

Since ml ranges from l to +l so values of ml can range from 2 to +2 . Thus ml=2 is also allowed and while set is correct.

(b)

Interpretation Introduction

Interpretation: Whether set of quantum numbers that include n equal to 4, l equal to 3, ml equal to 4 is allowed set or not should be identified and incorrect set should be pointed out.

Concept introduction:Energy, size, shape, and orientation of atomic orbital are determined with help of some numbers. These numbers are called quantum numbers and are obtained from solution of Schrodinger equation of hydrogen atom by application of boundary conditions.

Below mentioned are four quantum numbers.

1. Principal Quantum Number

It is represented by n . This quantum number is related to size and energy of different atomic orbitals. With increase in value of n , size of orbital becomes larger and electron is present farther from atomic nucleus for longer time.

2. Angular Momentum Quantum Number

It is represented by l . It describes angular momentum of electron in any specific atomic orbital. Shape of orbitals is determined by this quantum number. It can have integral values from 0 to (n1) .

Designation of orbitals on basis of different l values is as follows:

  Value of l0123Orbitalspdf

3. Magnetic Quantum Number

This quantum number is denoted by ml . It describes orientation of angular momentum associated with atomic orbital. Its value ranges from l to +l . Total values of magnetic quantum number is governed by 2l+1

4. Spin Quantum Number

This quantum number is represented by ms . It indicates direction of electron spin. It can either +12 or 12 .

(b)

Expert Solution
Check Mark

Explanation of Solution

For a given value of principal quantum number n allowed values of l range from 0 to n1 , therefore for n=4 the permitted values of azimuthal quantum number must range from 0 to 3. Therefore l=3 is possible and allowed.

Since ml ranges from l to +l so values of ml can range from 3 to +3 . Thus ml=4 is not allowed in this set and is incorrect. The correct set should have ml=3 or any value from 3 to +3 .

(c)

Interpretation Introduction

Interpretation: Whether set of quantum numbers that include n equal to 0, l equal to 0, ml equal to 0 is allowed set or not should be identified and incorrect set should be pointed out.

Concept introduction:Energy, size, shape, and orientation of atomic orbital are determined with help of some numbers. These numbers are called quantum numbers and are obtained from solution of Schrodinger equation of hydrogen atom by application of boundary conditions.

Below mentioned are four quantum numbers.

1. Principal Quantum Number

It is represented by n . This quantum number is related to size and energy of different atomic orbitals. With increase in value of n , size of orbital becomes larger and electron is present farther from atomic nucleus for longer time.

2. Angular Momentum Quantum Number

It is represented by l . It describes angular momentum of electron in any specific atomic orbital. Shape of orbitals is determined by this quantum number. It can have integral values from 0 to (n1) .

Designation of orbitals on basis of different l values is as follows:

  Value of l0123Orbitalspdf

3. Magnetic Quantum Number

This quantum number is denoted by ml . It describes orientation of angular momentum associated with atomic orbital. Its value ranges from l to +l . Total values of magnetic quantum number is governed by 2l+1

4. Spin Quantum Number

This quantum number is represented by ms . It indicates direction of electron spin. It can either +12 or 12 .

(c)

Expert Solution
Check Mark

Explanation of Solution

The principle quantum number n=0 is not allowed since it may have values from n=1,2,3 and so on but not begin with zero. Therefore n=0 , l=0 , ml=0 cannot be allowed or correct.

(d)

Interpretation Introduction

Interpretation: Whether set of quantum numbers that include n equal to2, l equal to 1 0, ml equal to 1 is allowed set or not should be identified and incorrect set should be pointed out.

Concept introduction:Energy, size, shape, and orientation of atomic orbital are determined with help of some numbers. These numbers are called quantum numbers and are obtained from solution of Schrodinger equation of hydrogen atom by application of boundary conditions.

Below mentioned are four quantum numbers.

1. Principal Quantum Number

It is represented by n . This quantum number is related to size and energy of different atomic orbitals. With increase in value of n , size of orbital becomes larger and electron is present farther from atomic nucleus for longer time.

2. Angular Momentum Quantum Number

It is represented by l . It describes angular momentum of electron in any specific atomic orbital. Shape of orbitals is determined by this quantum number. It can have integral values from 0 to (n1) .

Designation of orbitals on basis of different l values is as follows:

  Value of l0123Orbitalspdf

3. Magnetic Quantum Number

This quantum number is denoted by ml . It describes orientation of angular momentum associated with atomic orbital. Its value ranges from l to +l . Total values of magnetic quantum number is governed by 2l+1

4. Spin Quantum Number

This quantum number is represented by ms . It indicates direction of electron spin. It can either +12 or 12 .

(d)

Expert Solution
Check Mark

Explanation of Solution

For a given value of principal quantum number n allowed values of l range from 0 to n1 , therefore for n=2 the permitted values of azimuthal quantum number must range from 0 to 1. Therefore l=1 is not possible and is therefore not allowed.

Since ml ranges from l to +l so values of ml can range from 1 to +1 . Thus ml=1 is allowed in this set however whole set together is incorrect.

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Chapter 12 Solutions

Chemical Principles

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