On the basis of the electronegativity values given in Fig. 12.3, indicate which is the more polar bond in each of the following pairs. msp; a . H — F or H — Cl c . H — Br or H — Cl b . H — Cl or H — I d . H — I or H — Br
On the basis of the electronegativity values given in Fig. 12.3, indicate which is the more polar bond in each of the following pairs. msp; a . H — F or H — Cl c . H — Br or H — Cl b . H — Cl or H — I d . H — I or H — Br
Solution Summary: The author explains the chemical bond between two atoms in which electrons are distributed in an unequal amount is known as polar bond.
On the basis of the electronegativity values given in Fig. 12.3, indicate which is the more polar bond in each of the following pairs.
msp;
a
.
H
—
F or H
—
Cl
c
.
H
—
Br or H
—
Cl
b
.
H
—
Cl or H
—
I
d
.
H
—
I or H
—
Br
Expert Solution
Interpretation Introduction
(a)
Interpretation:
On the basis of electronegativity values, the more polar bond in the given pair of bonds is to be stated.
Concept Introduction:
The chemical bond that exists between two atoms in which electrons are distributed in an unequal amount is known as polar bond. Due to this unequal distribution of electrons, the molecule will possess the dipole moment in which one end will have partial positive charge and the other end will have partial negative charge.
The ability that is possessed by an atom to attract the bonding pair of electrons towards itself is known as electronegativity. The electronegativity decreases while going down the group and increases while moving left to right in the period.
Answer to Problem 17QAP
On the basis of electronegativity values, the more polar bond in the given pair of bonds is H−F.
Explanation of Solution
The given pair of bonds is H−F and H−Cl.
The electronegativity value of hydrogen is 2.1.
The electronegativity value of chlorine is 3.0.
The electronegativity value of fluorine is 4.0.
The difference in the electronegativity values for H−F bond is,
Differenceinelectronegativity for H−F bond=4.0−2.1=1.9
The difference in the electronegativity values for H−Cl bond is,
Differenceinelectronegativity for H−Cl bond=3.0−2.1=0.9
The difference in the electronegativity values for H−F bond is 1.9 and for H−Cl bond is 0.9.
The difference in the electronegativity values for H−F bond is higher than the difference in the electronegativity values for H−Cl bond. Hence, H−F bond is more polar than H−Cl bond.
Expert Solution
Interpretation Introduction
(b)
Interpretation:
On the basis of electronegativity values, the more polar bond in the given pair of bonds is to be stated.
Concept Introduction:
The chemical bond that exists between two atoms in which electrons are distributed in an unequal amount is known as polar bond. Due to this unequal distribution of electrons, the molecule will possess the dipole moment in which one end will have partial positive charge and the other end will have partial negative charge.
The ability that is possessed by an atom to attract the bonding pair of electrons towards itself is known as electronegativity. The electronegativity decreases while going down the group and increases while moving left to right in the period.
Answer to Problem 17QAP
On the basis of electronegativity values, the more polar bond in the given pair of bonds is H−Cl.
Explanation of Solution
The given pair of bonds is H−Cl and H−I.
The electronegativity value of hydrogen is 2.1.
The electronegativity value of chlorine is 3.0.
The electronegativity value of iodine is 2.5.
The difference in the electronegativity values for H−I bond is,
Differenceinelectronegativity for H−I bond=2.5−2.1=0.4
The difference in the electronegativity values for H−Cl bond is,
Differenceinelectronegativity for H−Cl bond=3.0−2.1=0.9
The difference in the electronegativity values for H−I bond is 0.4 and for H−Cl bond is 0.9.
The difference in the electronegativity values for H−Cl bond is higher than the difference in the electronegativity values for H−I bond. Hence, H−Cl bond is more polar than H−I bond.
Expert Solution
Interpretation Introduction
(c)
Interpretation:
On the basis of electronegativity values, the more polar bond in the given pair of bonds is to be stated.
Concept Introduction:
The chemical bond that exists between two atoms in which electrons are distributed in an unequal amount is known as polar bond. Due to this unequal distribution of electrons, the molecule will possess the dipole moment in which one end will have partial positive charge and the other end will have partial negative charge.
The ability that is possessed by an atom to attract the bonding pair of electrons towards itself is known as electronegativity. The electronegativity decreases while going down the group and increases while moving left to right in the period.
Answer to Problem 17QAP
On the basis of electronegativity values, the more polar bond in the given pair of bonds is H−Cl.
Explanation of Solution
The given pair of bonds is H−Cl and H−Br.
The electronegativity value of hydrogen is 2.1.
The electronegativity value of chlorine is 3.0.
The electronegativity value of bromine is 2.8.
The difference in the electronegativity values for H−Br bond is,
Differenceinelectronegativity for H−Br bond=2.8−2.1=0.7
The difference in the electronegativity values for H−Cl bond is,
Differenceinelectronegativity for H−Cl bond=3.0−2.1=0.9
The difference in the electronegativity values for H−Br bond is 0.7 and for H−Cl bond is 0.9.
The difference in the electronegativity values for H−Cl bond is higher than the difference in the electronegativity values for H−Br bond. Hence, H−Cl bond is more polar than H−Br bond.
Expert Solution
Interpretation Introduction
(d)
Interpretation:
On the basis of electronegativity values, the more polar bond in the given pair of bonds is to be stated.
Concept Introduction:
The chemical bond that exists between two atoms in which electrons are distributed in an unequal amount is known as polar bond. Due to this unequal distribution of electrons, the molecule will possess the dipole moment in which one end will have partial positive charge and the other end will have partial negative charge.
The ability that is possessed by an atom to attract the bonding pair of electrons towards itself is known as electronegativity. The electronegativity decreases while going down the group and increases while moving left to right in the period.
Answer to Problem 17QAP
On the basis of electronegativity values, the more polar bond in the given pair of bonds is H−Br.
Explanation of Solution
The given pair of bonds is H−I and H−Br.
The electronegativity value of hydrogen is 2.1.
The electronegativity value of iodine is 2.5.
The electronegativity value of bromine is 2.8.
The difference in the electronegativity values for H−I bond is,
Differenceinelectronegativity for H−I bond=2.5−2.1=0.4
The difference in the electronegativity values for H−Br bond is,
Differenceinelectronegativity for H−Br bond=2.8−2.1=0.7
The difference in the electronegativity values for H−Br bond is 0.7 and for H−I bond is 0.4.
The difference in the electronegativity values for H−Br bond is higher than the difference in the electronegativity values for H−I bond. Hence, H−Br bond is more polar than H−I bond.
Want to see more full solutions like this?
Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.