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Using the data in the table, which of the conjugate bases below is the stronge…
Related Topics
Wize University Chemistry Textbook > Acids and Bases
Applications of Acid and Base Equations
3 Activities
Using the data in the table, which of the conjugate bases below is the strongest base?
A
c
i
d
K
a
H
O
A
c
1.8
×
10
−
5
H
C
H
O
2
1.8
×
10
−
4
H
C
l
O
3.0
×
10
−
8
H
F
6.8
×
10
−
4
\def\arraystretch{1.5} \begin{array}{c} \hline Acid &&&K_a\\ \hline HOAc&&&1.8 \times 10^{-5}\\ HCHO_2&&&1.8 \times 10^{-4}\\ HClO &&& 3.0 \times 10^{-8}\\ HF &&& 6.8 \times 10^{-4}\\ \hline \end{array}
A
c
i
d
H
O
A
c
H
C
H
O
2
H
C
l
O
H
F
K
a
1.8
×
1
0
−
5
1.8
×
1
0
−
4
3.0
×
1
0
−
8
6.8
×
1
0
−
4
F
−
F^-
F
−
C
l
O
−
ClO^-
C
l
O
−
C
H
O
2
−
CHO_2^-
C
H
O
2
−
O
A
c
−
OAc^-
O
A
c
−
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More Applications of Acid and Base Equations Questions:
Weak Acids and Bases
Calculate the pH of the following solution.
A solution prepared by dissolving 4.25 x 10
-4
g of CH
3
COONa in 100.0 mL of water.
Note: Acetic Acid Ka = 1.8 x 10
-5
Weak Acids and Bases
Calculate the pH and pOH of the following solutions.
a)
A 6.30 x 10
-2
M solution of CH
3
COOH in water.
b)
A solution prepared by dissolving 4.25 x 10
-4
g of CH
3
COONa in 100.0 mL of water.
Weak Acids and Bases
Calculate the pH of a solution prepared by dissolving 0.500 g of sodium hydrogen phosphate (Na
2
HPO
4
, MW = 141.9579 g/mol) in 150.0 mL of water.
Weak Acids and Bases
Calculate the pH and pOH of the following solutions.
a)
A 6.30 x 10
-2
M solution of CH
3
COOH in water.
b)
A solution prepared by dissolving 4.25 x 10
-4
g of CH
3
COONa in 100.0 mL of water.
Weak Acids and Bases
Will HCO
3
-
act as an acid or as a base?
Weak Acids and Bases
Calculate the pH and pOH of the following solutions, knowing that Ka = 1.8x10^-5.
a)
A 5.33 x 10
-2
M solution of CH
3
COOH in water.
b)
A solution prepared by dissolving 1.15 x 10
-3
g of CH
3
COONa in 100.0 mL of water.
Weak Acids and Bases
Calculate the pH of a solution prepared by dissolving 0.150 g of sodium hydrogen phosphate (Na
2
HPO
4
, MW = 141.9579 g/mol) in 125.0 mL of water.
K
a
(
H
P
O
4
2
−
)
=
4.2
x
10
−
13
;
K
b
(
H
P
O
4
2
−
)
=
1.6
x
10
−
7
.
K_a\ \left(HPO_4^{2-}\right)\ =\ 4.2\ x\ 10^{-13};\ \ K_b\ \left(HPO_4^{2-}\right)\ =\ 1.6\ x\ 10^{-7}.\
K
a
(
H
P
O
4
2
−
)
=
4.2
x
1
0
−
13
;
K
b
(
H
P
O
4
2
−
)
=
1.6
x
1
0
−
7
.
Weak Acids and Bases
Calculate the percent dissociation for the following solutions.
a)
A 0.444 M aqueous solution of HCN (
K
a
= 6.2 x 10
-10
).
b)
A 3.50 x 10
-2
M aqueous solution of NaCN.
Weak Acids and Bases
Sulfurous acid (H2SO
3
) is a diprotic weak acid (p
K
a1
= 1.85, p
K
a2
= 7.20). Bisulfite (HSO
3
-
) is the conjugate base of sulfurous acid and is an amphoteric species (can act as an acid or a base). Will HSO
3
-
act as an acid or as a base?
Consider the weak bases below and their K
b
values:
C
6
H
7
O K
b
= 1.3 x 10
-10
C
2
H
5
NH
2
K
b
= 5.6 x 10
-4
Acids and Bases
Find the pH during titration of 20.00 mL of 0.100 M butanoic acid with 0.100 M NaOH solution after the following additions of base: 0 mL, 10.00 mL, 20.00 mL, 25.00 mL (K
a
= 1.54 x 10
-5
)
Acids and Bases: pH
What is the pH of a 0.10 M solution of NaF? (K
a
for HF = 6.8×10
-4
)?