Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition
Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition
10th Edition
ISBN: 9781305957510
Author: ZUMDAHL, Steven S.; Zumdahl, Susan A.; DeCoste, Donald J.
Publisher: Cengage Learning
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Chapter 8, Problem 35E

(i)

(a)

Interpretation Introduction

Interpretation: The exercise 31 and 33 is to be repeated using electro-negativity values of the elements. Any difference, if present, is to be accounted for.

Concept introduction: Electro-negativity is defined as the measure of how strongly elements attract bonding electrons to themselves. More the electro-negativity more will be the degree of attraction.

To determine: The order of increasing electro-negativity and polarity of given elements from exercise 31 and 33; the comparison with figure 3-4.

(i)

(a)

Expert Solution
Check Mark

Answer to Problem 35E

No, there are no differences.

Explanation of Solution

Refer to figure 3-4.

The electro negativity of carbon (C) , nitrogen (N) , and oxygen (O) elements obtained from figure 3-4 is:

  • Carbon: 2.5
  • Oxygen: 3.5
  • Nitrogen: 3.0

Thus, the increasing order of electro negativity is C < N < O .

Repeat exercise 31 (a):

In a periodic table nuclear attraction on incoming electrons increases along the period because the atomic radii decreases from left to right. As a result electro negativity increases along the period from left to right.

The atomic radii increase down the group because nuclear attraction decreases. As a result electro negativity decreases down the group.

The carbon (C) , nitrogen (N) , and oxygen (O) are the elements of period 2 and their electronic configurations are as follows:

  • Carbon: 1s22s22p2
  • Nitrogen: 1s22s22p3
  • oxygen: 1s22s22p4

The electro negativity increases along the period from left to right. Hence the correct order of increasing electro negativity of C, N, O element is:

  • C < N < O

The answer obtained from exercise 31 (a) is C < N < O .

(b)

Interpretation Introduction

Interpretation: The exercise 31 and 33 is to be repeated using electronegativity values of the elements. Any difference, if present, is to be accounted for.

Concept introduction: Electronegativity is defined as the measure of how strongly elements attract bonding electrons to themselves. More the electronegativity more will be the degree of attraction.

To determine: The order of increasing electro-negativity of S, Se, Cl elements from exercise 31; the comparison with figure 3-4.

(b)

Expert Solution
Check Mark

Answer to Problem 35E

No, there is  no difference.

Explanation of Solution

Refer to figure 3-4

The electro negativity of Selenium (Se), sulfur (S) and chlorine (Cl) obtained from figure 3-4 are:

  • Selenium: 2.4
  • Sulfur: 2.5
  • Chlorine: 3.0

The increasing order of electro negativity is Se < S < Cl .

Repeat exercise 31 (b):

In a periodic table nuclear attraction on incoming electrons increases along the period because the atomic radii decreases from left to right. As a result electro-negativity increases along the period from left to right.

The atomic radii increase down the group because nuclear attraction decreases. As a result electro-negativity decreases down the group.

The element Selenium (Se) lies in 4th period, 16th group, sulfur (S) lie in 3rd period, 16th group and chlorine (Cl) lie in 3rd period, 17th group. The electronic configuration of these elements as follows:

  • Selenium: 1s22s22p63s23p63d104s24p4
  • Sulfur: 1s22s22p63s23p4
  • Chlorine: 1s22s22p63s23p5

The electro-negativity decreases down the group. Hence the correct order of increasing electro-negativity of S, Se, Cl element is:

  • Se < S < Cl

The answer obtained from exercise 31(b) is Se < S < Cl .

(c)

Interpretation Introduction

Interpretation: The exercise 31 and 33 is to be repeated using electronegativity values of the elements. Any difference, if present, is to be accounted for.

Concept introduction: Electronegativity is defined as the measure of how strongly elements attract bonding electrons to themselves. More the electronegativity more will be the degree of attraction.

To determine: The order of increasing electro-negativity of Si, Ge, Sn elements from exercise 31; the comparison with figure 3-4.

(c)

Expert Solution
Check Mark

Answer to Problem 35E

Yes, the answer is different.

Explanation of Solution

Refer to figure 3-4

The electro-negativity of Silicon (Si) , Germanium (Ge) and Tin (Sn) obtained from figure 3-4 are:

  • Silicon: 1.8
  • Germanium: 1.8
  • Tin: 1.8

The increasing order of electro-negativity is Si=Ge=Sn .

Repeat exercise 31 (c):

In a periodic table nuclear attraction on incoming electrons increases along the period because the atomic radii decreases from left to right. As a result electro-negativity increases along the period from left to right.

The atomic radii increase down the group because nuclear attraction decreases. As a result electro-negativity decreases down the group.

The element Silicon lies in 3rd period, 14th group, Germanium lie in 4th period, 14th group and Tin lie in 5th period, 14th group. The electronic configuration of these elements as follows:

  • Silicon: 1s22s22p63s23p2
  • Germanium: 1s22s22p63s23p63d104s24p2
  • Tin: 1s22s22p63s23p63d104s24p64d105s25p2

The electro-negativity increases along the period from left to right. Hence the correct order of increasing electro-negativity of Si, Ge, Sn element is:

  • Sn<Ge<Si

The answer obtained from exercise 31(c) is Sn<Ge<Si .

(d)

Interpretation Introduction

Interpretation: The exercise 31 and 33 is to be repeated using electronegativity values of the elements. Any difference, if present, is to be accounted for.

Concept introduction: Electronegativity is defined as the measure of how strongly elements attract bonding electrons to themselves. More the electronegativity more will be the degree of attraction.

To determine: The order of increasing electro-negativity of Tl, S, Ge elements from exercise 31; the comparison with figure 3-4.

(d)

Expert Solution
Check Mark

Answer to Problem 35E

Yes, the answer is different.

Explanation of Solution

Refer to figure 3-4

The electro-negativity of Thallium (Tl) , Germanium (Ge) and sulfur (S) obtained from figure 3-4 are:

  • Thallium: 1.8
  • Germanium: 1.8
  • Sulfur: 2.5

The increasing order of electro-negativity is Tl=Ge<S .

Repeat exercise 31 (d):

In a periodic table nuclear attraction on incoming electrons increases along the period because the atomic radii decreases from left to right. As a result electro-negativity increases along the period from left to right.

The atomic radii increase down the group because nuclear attraction decreases. As a result electro-negativity decreases down the group.

The element Thallium lies in 6th period, 13th group, Germanium lie in 4th period, 14th group and sulfur lie in 3rd period, 16th group. The electronic configuration of these elements as follows:

  • Thallium: 1s22s22p63s23p63d104s24p64d105s25p64f145d106s26p1
  • Germanium: 1s22s22p63s23p63d104s24p2
  • Sulfur: 1s22s22p63s23p4

The electro-negativity increases along the period from left to right and decreases down the group. Hence the correct order of increasing electro-negativity of Tl, S, Ge element is:

  • Tl<Ge<S

The answer obtained from exercise 31(d) is Tl<Ge<S .

Conclusion

Both the answer was same for elements C, N, O .

The order of increasing electro-negativity of C, N, O elements is C<N<O .

Both the answer was same for elements S, Se, Cl .

The order of increasing electro-negativity of S, Se, Cl elements is Se<S<Cl .

The answer obtained from figure 3-4 was different from exercise 31 (c).

According to figure 3-4,

The order of increasing electro-negativity of Si, Ge, Sn elements is Sn=Ge=Si .

According to exercise 31 (c),

The order of increasing electro-negativity of Si, Ge, Sn elements is Sn<Ge<Si .

The answer obtained from figure 3-4 was different from exercise 31 (d).

According to figure 3-4,

The order of increasing electro-negativity of Tl, S, Ge elements is Tl=Ge<S .

According to exercise 31 (d),

The order of increasing electro-negativity of Tl, S, Ge elements is Tl<Ge<S .

(ii)

(a)

Interpretation Introduction

Interpretation: The exercise 31 and 33 is to be repeated using electronegativity values of the elements. Any difference, if present, is to be accounted for.

Concept introduction: Electronegativity is defined as the measure of how strongly elements attract bonding electrons to themselves. More the electronegativity more will be the degree of attraction.

To determine: The most polar bond among CF, SiF, GeF bonds from exercise 33; the comparison with figure 3-4.

(ii)

(a)

Expert Solution
Check Mark

Answer to Problem 35E

No, there are no differences.

Explanation of Solution

Refer to figure 3-4

The electro-negativity difference of CF bond obtained from figure 3-4:

CF=4.02.5=1.5

The electro-negativity difference of SiF bond obtained from figure 3-4:

SiF=4.01.8=2.2

The electro-negativity difference of GeF bond obtained from figure 3-4:

GeF=4.01.8=2.2

Higher the difference in electro-negativity Lower will be the bond polarity. Hence, CF bond is most polar.

Repeat exercise 33 (a):

Bond polarity is measured by electro-negativity of elements. Higher the difference in electro-negativity lower will be the bond polarity. Also, size of atomic radii plays a great role in formation of polar covalent bond.

According to Fajan’s rule:

“The covalent bond will be more polar if the size of cation is small and size of anion is large.”

In this question size of anion is same.

The size of cation such as Germanium (Ge) and silicon (Si) has larger atomic radii whereas carbon (C) has smaller atomic radii.

Hence, CF bond is most polar.

The answer obtained from exercise 33 (a): CF bond is most polar.

(b)

Interpretation Introduction

Interpretation: The exercise 31 and 33 is to be repeated using electronegativity values of the elements. Any difference, if present, is to be accounted for.

Concept introduction: Electronegativity is defined as the measure of how strongly elements attract bonding electrons to themselves. More the electronegativity more will be the degree of attraction.

To determine: The most polar bond between PCl or SCl bonds from exercise 33; the comparison with figure 3-4.

(b)

Expert Solution
Check Mark

Answer to Problem 35E

No, there are  no differences.

Explanation of Solution

Refer to figure 3-4

The electro-negativity difference of PCl bond obtained from figure 3-4:

PCl=3.02.1=0.9

The electro-negativity difference of SCl bond obtained from figure 3-4:

SCl=3.02.5=0.5

Higher the difference in electro-negativity Lower will be the bond polarity. Hence, SCl is most polar bond.

Repeat exercise 33 (b):

Bond polarity is measured by electro-negativity of elements. Higher the difference in electro-negativity lower will be the bond polarity. Also, size of atomic radii plays a great role in formation of polar covalent bond.

According to Fajan’s rule:

“The covalent bond will be more polar if the size of cation is small and size of anion is large.”

In this question size of anion is same.

The size of cation Sulfur (S) has smaller atomic radii whereas phosphorus (P) atom has bigger atomic radii.

Hence, SCl is most polar bond.

The answer obtained from exercise 33 (b): SCl is most polar bond.

(c)

Interpretation Introduction

Interpretation: The exercise 31 and 33 is to be repeated using electronegativity values of the elements. Any difference, if present, is to be accounted for.

Concept introduction: Electronegativity is defined as the measure of how strongly elements attract bonding electrons to themselves. More the electronegativity more will be the degree of attraction.

To determine: The most polar bond among SF, SCl, SBr bonds from exercise 33; the comparison with figure 3-4.

(c)

Expert Solution
Check Mark

Answer to Problem 35E

No, there are  no differences.

Explanation of Solution

Refer to figure 3-4

The electro-negativity difference of SF bond obtained from figure 3-4:

SF=4.03.0=1.0

The electro-negativity difference of SCl bond obtained from figure 3-4:

SCl=3.02.5=0.5

The electro-negativity difference of SBr bond obtained from figure 3-4:

SBr=2.82.5=0.3

Higher the difference in electro-negativity Lower will be the bond polarity. Hence, SBr is most polar bond.

Repeat exercise 33 (c):

Bond polarity is measured by electro-negativity of elements. Higher the difference in electro-negativity lower will be the bond polarity. Also, size of atomic radii plays a great role in formation of polar covalent bond.

According to Fajan’s rule:

“The covalent bond will be more polar if the size of cation is small and size of anion is large.”

In this question size of cation is same.

The size of anion such as chlorine (Cl) and fluorine (F) has smaller atomic radii whereas Bromine (Br) has higher atomic radii.

Hence, SBr is most polar bond.

The answer obtained from exercise 33 (c) SBr is most polar bond.

(d)

Interpretation Introduction

Interpretation: The exercise 31 and 33 is to be repeated using electronegativity values of the elements. Any difference, if present, is to be accounted for.

Concept introduction: Electronegativity is defined as the measure of how strongly elements attract bonding electrons to themselves. More the electronegativity more will be the degree of attraction.

To determine: The most polar bond among TiCl, SiCl, GeCl bonds from exercise 33; the comparison with figure 3-4.

(d)

Expert Solution
Check Mark

Answer to Problem 35E

Yes, the answer is different.

Explanation of Solution

Refer to figure 3-4

The electro-negativity difference of TiCl bond obtained from figure 3-4:

TiCl=3.01.5=1.5

The electro-negativity difference of SiCl bond obtained from figure 3-4:

SiCl=3.01.8=1.2

The electro-negativity difference of GeCl bond obtained from figure 3-4:

GeCl=3.01.8=1.2

Higher the difference in electro-negativity Lower will be the bond polarity. Hence, SiCl and GeCl are most polar bonds.

Repeat exercise 33 (d):

Bond polarity is measured by electro-negativity of elements. Higher the difference in electro-negativity lower will be the bond polarity. Also, size of atomic radii plays a great role in formation of polar covalent bond.

According to Fajan’s rule:

“The covalent bond will be more polar if the size of cation is small and size of anion is large.”

In this question size of anion is same.

The size of cation such as silicon (Si) has smaller atomic radii in comparison to Titanium and germanium.

Hence, SiCl is most polar bond.

The answer obtained from exercise 33 (d): SiCl is most polar bond.

Conclusion

The answer calculated from figure 3-4 and exercise 33 is:

Both the answer was same for bonds CF, SiF, GeF .

The most polar bond among CF, SiF, GeF is CF .

Both the answer was same for bonds PCl or SCl .

The most polar bond between PCl or SCl is SCl .

Both the answer was same for bonds SF, SCl, SBr .

The most polar bond among SF, SCl, SBr is SBr .

The answer obtained from figure 3-4 was different from exercise 33 (d).

According to figure 3-4,

The most polar bond among TiCl, SiCl, GeCl is SiCl and GeCl .

According to exercise 33 (d),

The most polar bond among TiCl, SiCl, GeCl is SiCl .

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Chapter 8 Solutions

Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition

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