Chemistry: Atoms First Approach (Instructor's)
Chemistry: Atoms First Approach (Instructor's)
2nd Edition
ISBN: 9781305254015
Author: ZUMDAHL
Publisher: CENGAGE L
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Chapter 2, Problem 95E

In the ground state of mercury, Hg,

a. how many electrons occupy atomic orbitals with n = 3?

b. how many electrons occupy d atomic orbitals?

c. how many electrons occupy pz, atomic orbitals?

d. how many electrons have spin "up" ( m s = + 1 2 ) ?

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The given questions with respect to the ground state of mercury (Hg) are to be answered.

Concept Introduction:

According to the Aufbau principal, in the ground state of an atom or an ion, the atomic orbitals of the lowest available energy level are filled by the electrons first. Then the orbitals of a comparatively higher energy level are filled. Also, according to the Hund’s rule of maximum multiplicity, the orbitals having the same energy level are filled by one electron each before any one of them is filled with a second electron.

To determine: The number of electrons occupying atomic orbitals with n=3 .

Answer to Problem 95E

Answer

The required number of electrons is 18_ .

Explanation of Solution

The atomic number of mercury is 80 . This is equal to the number of electrons present in the atom. Hence, the ground state electronic configuration of mercury is given as,

Hg(80)=1s2,2s2,2p6,3s2,3p6,4s2,3d10,4p6,5s2,4d10,5p6,6s2,4f14,5d10 .

In this case, three orbitals with n=3 are present.

The total number of electrons occupying the n=3 orbitals is,

2+6+10=18_

Conclusion

The number of electrons occupying the n=3 orbitals in mercury (Hg) is 18_ .

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The given questions with respect to the ground state of mercury (Hg) are to be answered.

Concept Introduction:

According to the Aufbau principal, in the ground state of an atom or an ion, the atomic orbitals of the lowest available energy level are filled by the electrons first. Then the orbitals of a comparatively higher energy level are filled. Also, according to the Hund’s rule of maximum multiplicity, the orbitals having the same energy level are filled by one electron each before any one of them is filled with a second electron.

To determine: The number of electrons occupying the d orbital.

Answer to Problem 95E

Answer

The number of electrons that occupy the d orbital is 30_ .

Explanation of Solution

The atomic number of mercury is 80 . This is equal to the number of electrons present in the atom. Hence, the ground state electronic configuration of mercury is given as,

Hg(80)=1s2,2s2,2p6,3s2,3p6,4s2,3d10,4p6,5s2,4d10,5p6,6s2,4f14,5d10 .

In this case, three d orbitals are present.

The number of electrons which occupy the d orbital is,

10+10+10=30_

Conclusion

The number of electrons that occupy the d orbital in mercury (Hg) is 30_ .

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The given questions with respect to the ground state of mercury (Hg) are to be answered.

Concept Introduction:

According to the Aufbau principal, in the ground state of an atom or an ion, the atomic orbitals of the lowest available energy level are filled by the electrons first. Then the orbitals of a comparatively higher energy level are filled. Also, according to the Hund’s rule of maximum multiplicity, the orbitals having the same energy level are filled by one electron each before any one of them is filled with a second electron.

To determine: The number of electrons occupying the pz orbital.

Answer to Problem 95E

Answer

The number of electrons that occupy the pz orbital is 30 .

Explanation of Solution

The atomic number of mercury is 80 . This is equal to the number of electrons present in the atom. Hence, the ground state electronic configuration of mercury is given as,

Hg(80)=1s2,2s2,2p6,3s2,3p6,4s2,3d10,4p6,5s2,4d10,5p6,6s2,4f14,5d10 .

The number of p orbitals is 4 .

In each p orbital there is one pz orbital; and in each pz orbital, two electrons are present.

Therefore, number of electrons which occupy the pz orbital in mercury (Hg) is,

4×2=8_ .

Conclusion

The number of electrons that occupy the pz orbital in mercury (Hg) is 8_ .

(d)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The given questions with respect to the ground state of mercury (Hg) are to be answered.

Concept Introduction:

According to the Aufbau principal, in the ground state of an atom or an ion, the atomic orbitals of the lowest available energy level are filled by the electrons first. Then the orbitals of a comparatively higher energy level are filled. Also, according to the Hund’s rule of maximum multiplicity, the orbitals having the same energy level are filled by one electron each before any one of them is filled with a second electron.

To determine: The number of electrons having spin “up” (ms=+12) .

Answer to Problem 95E

Answer

The number of electrons having spin quantum number, ms=+12 is 40_ .

Explanation of Solution

The atomic number of mercury is 80 . This is equal to the number of electrons present in the atom. Hence, the ground state electronic configuration of mercury is given as,

Hg(80)=1s2,2s2,2p6,3s2,3p6,4s2,3d10,4p6,5s2,4d10,5p6,6s2,4f14,5d10 .

There are total 80 electrons present; half of the electrons have positive spin, while the other half will have a negative spin.

Hence, the number of electrons having ms=+12 is 40_ .

Conclusion

The number of electrons having positive spin in case of mercury (Hg) is 40_ .

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Chapter 2 Solutions

Chemistry: Atoms First Approach (Instructor's)

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