Acids and Bases Arrhenius ◦ Acid:Substance that, when dissolved in water, increases the...
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Transcript of Acids and Bases Arrhenius ◦ Acid:Substance that, when dissolved in water, increases the...
![Page 1: Acids and Bases Arrhenius ◦ Acid:Substance that, when dissolved in water, increases the concentration of hydrogen ions. ◦ Base:Substance that, when dissolved.](https://reader036.fdocuments.us/reader036/viewer/2022062300/56649e625503460f94b5e073/html5/thumbnails/1.jpg)
AcidsandBases
Arrhenius◦Acid: Substance that, when dissolved in water, increases the concentration of hydrogen ions.
◦Base: Substance that, when dissolved in water, increases the concentration of hydroxide ions.
◦Limitation: Restricted to aqueous system!
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AcidsandBases
Brønsted–Lowry◦Broader definition!◦Acid: Proton (H+ ) donor◦Base: Proton(H+ ) acceptor
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AcidsandBases
A Brønsted–Lowry acid…
…must have a removable (acidic) proton.
A Brønsted–Lowry base…
…must have a pair of nonbonding electrons.
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AcidsandBases
...it is amphiprotic.
HCO3−
HSO4−
H2O
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AcidsandBases
Water acts as a Brønsted–Lowry base and abstracts a proton (H+) from the acid.
As a result, the conjugate base of the acid and a hydronium ion are formed.
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AcidsandBases
Reactions between acids and bases always yield their conjugate bases and acids.
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AcidsandBases
a) HNO3 + OH-
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AcidsandBases
CH3NH2 + H2O
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AcidsandBases
c) OH- + HPO4
-2
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AcidsandBases
NH3 + H2O
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AcidsandBases
Strong acids are completely dissociated in water.
Have large K values!!◦ Their conjugate bases
are quite weak. Weak acids only
dissociate partially in water.◦ Their conjugate bases
are weak bases.◦ Small K values
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AcidsandBases
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AcidsandBases
HCl HBr HI (not HF)
HNO3
H2SO4 HClO4
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AcidsandBases
Substances with negligible acidity do not dissociate in water.◦ Their conjugate bases
are exceedingly strong.
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AcidsandBases
In any acid-base reaction, the equilibrium will favor the reaction that moves the proton to the stronger base.
HCl(aq) + H2O(l) H3O+(aq) + Cl−(aq)
H2O is a much stronger base than Cl−, so the equilibrium lies so far to the right K is not measured (K>>1).
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AcidsandBases
Acetate is a stronger base than H2O, so the equilibrium favors the left side (K<1).
HC2H3O2(aq) + H2O(l) H3O+(aq) + C2H3O2−(aq)
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AcidsandBases
As we have seen, water is amphoteric. In pure water, a few molecules act as bases
and a few act as acids.
This is referred to as autoionization.
H2O(l) + H2O(l) H3O+(aq) + OH−(aq)
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AcidsandBases
The equilibrium expression for this process is
Kc = [H3O+] [OH−] This special equilibrium constant is referred
to as the ion-product constant for water, Kw. At 25°C, Kw = 1.0 10−14
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AcidsandBases
pH is defined as the negative base-10 logarithm of the hydronium ion concentration.
pH = −log [H3O+]
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AcidsandBases
In pure water,
Kw = [H3O+] [OH−] = 1.0 10−14
Because in pure water [H3O+] = [OH−],
[H3O+] = (1.0 10−14)1/2 = 1.0 10−7
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AcidsandBases
Therefore, in pure water,pH = −log (1.0 10−7) = 7.00
An acid has a higher [H3O+] than pure water, so its pH is <7
A base has a lower [H3O+] than pure water, so its pH is >7.
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AcidsandBases
These are the pH values for several common substances.
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AcidsandBases
The “p” in pH tells us to take the negative log of the quantity (in this case, hydrogen ions).
Some similar examples are◦ pOH −log [OH−]◦ pKw −log Kw
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AcidsandBases
Because[H3O+] [OH−] = Kw = 1.0 10−14,
we know that
−log [H3O+] + −log [OH−] = −log Kw = 14.00
or, in other words,pH + pOH = pKw = 14.00
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AcidsandBases
For less accurate measurements, one can use◦ Litmus paper
“Red” paper turns blue above ~pH = 8
“Blue” paper turns red below ~pH = 5
◦ An indicator
How Do We Measure pH?
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AcidsandBases
For more accurate measurements, one uses a pH meter, which measures the voltage in the solution.
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AcidsandBases
You will recall that the six strong acids are HCl, HBr, HI, HNO3, H2SO4, and HClO4.
These are, by definition, strong electrolytes and exist totally as ions in aqueous solution.
For the monoprotic strong acids,[H+] = [acid].
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AcidsandBases
What is the Hydrogen ion concentrations of .013 M HCl?
What is the Hydrogen ion concentrations of .0125 M HNO3?
HClO4 has a [H+] of 2.33 x 10-3 M.. What is the concentration of the acid?
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AcidsandBases
Strong bases are the soluble hydroxides, which are the alkali metal (LiOH, NaOH, KOH, RbOH, CsOH)and heavier alkaline earth metal hydroxides –
Ca(OH )2, Sr(OH )2 Ba(OH)2
Again, these substances dissociate completely in aqueous solution.
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AcidsandBases
They do not ionize much Equilibium lies far to the left!
the equilibrium expression would be
This equilibrium constant is called the acid-dissociation constant, Ka.
[H3O+] [A−][HA]
Kc =
HA(aq) + H2O(l) A−(aq) + H3O+(aq)
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AcidsandBases
The greater the value of Ka, the stronger the acid.
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AcidsandBases
Write the Ka expression for acetic acid:
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AcidsandBases
Write the Ka expression for acetic acid:
H C2H3O2(aq)+H2O(l) C2H3O2−(aq)+H3O+
(aq)
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AcidsandBases
Weak bases without OH react with water to produce hydroxide ion.
Examples: NH3 CH3NH2 (methylamine)
lone pair of electrons forms a bond with H+
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AcidsandBases
B + H2O(l) HB+ OH-
Kb=[HB] [OH−]
[B]
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AcidsandBases
Kb can be used to find [OH−] and, through it, pH.
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AcidsandBases
Calculate the pH of a 0.30 M solution of acetic acid, HC2H3O2, at 25°C.
HC2H3O2(aq) + H2O(l) H3O+(aq) + C2H3O2
−(aq)
Ka for acetic acid at 25°C is 1.8 10−5.
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AcidsandBases
The equilibrium constant expression is
[H3O+] [C2H3O2−]
[HC2H3O2]Ka =
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AcidsandBases
[C2H3O2], M [H3O+], M [C2H3O2−], M
I 0.30 0 0
C −x +x +x
E 0.30 − x 0.30 x x
We next set up a table…
We are assuming that x will be very small compared to 0.30 and can, therefore, be ignored.
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AcidsandBases
When the initial concnetration is very large compared to 100 Ka .
If initial concentration is large by comparison, neglect x.
Quantitatively, if the quantity x is more than about 5% of the initial value, it is better to use the quadratic formula
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AcidsandBases
Now,
(x)2
(0.30)1.8 10−5 =
(1.8 10−5) (0.30) = x2
5.4 10−6 = x2
2.3 10−3 = x
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AcidsandBases
pH = −log [H3O+]pH = −log (2.3 10−3)pH = 2.64
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AcidsandBases
Calculate the pH of a 1.00 x 10-4 M solution of acetic acid, HC2H3O2, at 25°C.
HC2H3O2(aq) + H2O(l) H3O+(aq) + C2H3O2
−(aq)
Ka for acetic acid at 25°C is 1.8 10−5.
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AcidsandBases
[C2H3O2], M [H3O+], M [C2H3O2−], M
I 1.00 x 10-4 0 0
C −x +x +x
E 1.00 x 10-4 − x x x
We next set up a table…
x will is not very small compared to 1.00 x 10-4
and cannot be ignored.
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AcidsandBases
X2 = 1.8 x 10-9 - 1.8 x 10-5 xOr
X2 + 1.8 x 10-5 x - 1.8 x 10-9 = 0
X = 3.44 x 10-4 = [H+]
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AcidsandBases
pH = - log (3.44 x 10-4 ) = 3.46
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AcidsandBases
Only the acid in the mixture with the larger Ka will donate an appreciable [H+ ].
Determine pH Based on this acid, and ignore all others!
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AcidsandBases
The pH of a 0.10 M solution of formic acid, HCOOH, at 25°C is 2.38. Calculate Ka for formic acid at this temperature.
We know that
[H3O+] [COO−][HCOOH]
Ka =
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AcidsandBases
The pH of a 0.10 M solution of formic acid, HCOOH, at 25°C is 2.38. Calculate Ka for formic acid at this temperature.
We know that
[H3O+] [COO−][HCOOH]
Ka =
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AcidsandBases
The pH of a 0.10 M solution of formic acid, HCOOH, at 25°C is 2.38. Calculate Ka for formic acid at this temperature.
To calculate Ka, we need the equilibrium concentrations of all three things.
We can find [H3O+], which is the same as [HCOO−], from the pH.
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AcidsandBases
pH = −log [H3O+]
2.38 = −log [H3O+]
−2.38 = log [H3O+]
10−2.38 = 10log [H3O+] = [H3O+]
4.2 10−3 = [H3O+] = [HCOO−]
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AcidsandBases
[HCOOH], M [H3O+], M [HCOO−], M
Initially 0.10 0 0
Change −4.2 10-3 +4.2 10-
3
+4.2 10−3
At Equilibrium
0.10 − 4.2 10−3
= 0.0958 = 0.10
4.2 10−3 4.2 10−3
Now we can set up a table…
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AcidsandBases
[4.2 10−3] [4.2 10−3][0.10]
Ka =
= 1.8 10−4
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AcidsandBases
Have more than one acidic proton. If the difference between the Ka for the
first dissociation and subsequent Ka values is 103 or more, the pH generally depends only on the first dissociation.
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AcidsandBases
Bases react with water to produce hydroxide ion.
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AcidsandBases
The equilibrium constant expression for this reaction is
[HB] [OH−][B−]
Kb =
where Kb is the base-dissociation constant.
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AcidsandBases
What is the pH of a 0.15 M solution of NH3?
[NH4+] [OH−]
[NH3]Kb = = 1.8 10−5
NH3(aq) + H2O(l) NH4+(aq) + OH−(aq)
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AcidsandBases
[NH3], M [NH4+], M [OH−], M
Initially 0.15 0 0
At Equilibrium 0.15 - x 0.15
x x
Tabulate the data.
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AcidsandBases
(1.8 10−5) (0.15) = x2
2.7 10−6 = x2
1.6 10−3 = x2
(x)2
(0.15)1.8 10−5 =
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AcidsandBases
Therefore,[OH−] = 1.6 10−3 MpOH = −log (1.6 10−3)pOH = 2.80pH = 14.00 − 2.80pH = 11.20
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AcidsandBases
Ka and Kb are related in this way:
Ka Kb = Kw
Therefore, if you know one of them, you can calculate the other.
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AcidsandBases
Percent Ionization = 100
In this example[H3O+]eq = 4.2 10−3 M
[HCOOH]initial = 0.10 M
[H3O+]eq
[HA]initial
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AcidsandBases
Percent Ionization = 1004.2 10−3
0.10
= 4.2%
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AcidsandBases
Calculate the percent dissociation of acetic acid (Ka= 1.8 x 10-5) in each of the following solutions:
1.00 M HC2H3O2
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AcidsandBases
Anions are bases. As such, they can react with water in a
hydrolysis reaction to form OH− and the conjugate acid:
X−(aq) + H2O(l) HX(aq) + OH−(aq)
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AcidsandBases
Cations with acidic protons (like NH4
+) will lower the pH of a solution.
Most metal cations that are hydrated in solution also lower the pH of the solution.
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AcidsandBases
Attraction between nonbonding electrons on oxygen and the metal causes a shift of the electron density in water.
This makes the O-H bond more polar and the water more acidic.
Greater charge and smaller size make a cation more acidic.
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AcidsandBases
1. An anion that is the conjugate base of a strong acid will not affect the pH.
2. An anion that is the conjugate base of a weak acid will increase the pH.
3. A cation that is the conjugate acid of a weak base will decrease the pH.
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AcidsandBases
4. Cations of the strong Arrhenius bases will not affect the pH.
5. Other metal ions will cause a decrease in pH.
6. When a solution contains both the conjugate base of a weak acid and the conjugate acid of a weak base, the affect on pH depends on the Ka and Kb values.
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AcidsandBases
The more polar the H-X bond and/or the weaker the H-X bond, the more acidic the compound.
Acidity increases from left to right across a row and from top to bottom down a group.
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AcidsandBases
In oxyacids, in which an OH is bonded to another atom, Y, the more electronegative Y is, the more acidic the acid.
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AcidsandBases
For a series of oxyacids, acidity increases with the number of oxygens.
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AcidsandBases
Resonance in the conjugate bases of carboxylic acids stabilizes the base and makes the conjugate acid more acidic.
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AcidsandBases
Lewis acids are defined as electron-pair acceptors.
Atoms with an empty valence orbital can be Lewis acids.
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AcidsandBases
Lewis bases are defined as electron-pair donors.
Anything that could be a Brønsted–Lowry base is a Lewis base.
Lewis bases can interact with things other than protons, however.