chapters 14 and 15. aqueous solutions have a sour taste. acids change the color of acid-base...
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Chapters 14 and 15
Acids and Bases
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• Aqueous solutions have a sour taste.• Acids change the color of acid-base indicators.• Some acids react with active metals to release
hydrogen gas, H2.• Acids react with bases to produce salts and
water (i.e. a neutralization reaction)• Some acids conduct electric current.
Properties of acids
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Properties of bases• Aqueous solutions taste bitter.• Bases change the color of acid-base indicators.• Dilute aqueous solutions of bases feel slippery
(ex. soap).• Bases react with acids to produce salts and
water. (i.e. neutralization reactions)• Bases conduct electric current.
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Theories of acids and basesTheory Acid
propertiesBase properties
Arrhenius H+ ion produced
OH- ion produced
Brønsted-Lowry
Proton donor Proton acceptor
Lewis e- pair acceptor
e- pair donor
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• Strong acids and bases are those that ionize completely in aqueous solution. They are also typically strong electrolytes.
• Weak acids and bases are those that do not ionize completely in aqueous solution. They are also typically weak electrolytes.
Strong vs. weak
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Strong acids Weak acidsH2SO4 + H2OH3O+ + HSO4
- HSO4- + H2O H3O+ + SO4
2-
HClO4 + H2O H3O+ + ClO4- H3PO4
+ H2OH3O++ H2PO4-
HClO3 + H2O H3O+ + ClO3- HF + H2O H3O+ + F-
HCl + H2O H3O+ + Cl- CH3COOH +H2OH3O+ + CH3COO-
HNO3 + H2O H3O+ + NO3- H2CO3
+H2OH3O+ + HCO3-
HBr + H2O H3O+ + Br- HCO3- + H2OH3O+ + CO3
2-
HI + H2O H3O+ + I- H2S + H2O H3O+ + HS-
HCN + H2O H3O+ + CN-
Page 474 of your textbook
Common strong and weak acids
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Strong bases Weak basesCa(OH)2 Ca2+ +
2OH-
NH3 + H2O NH4+ + OH-
Sr(OH)2 Sr2+ + 2OH- C6H5NH2+ H2O C6H5NH3+ +
OH-
Ba(OH)2 Ba2+ + 2OH-
NaOH Na+ + OH-
KOH K+ + OH-
RbOH Rb+ + OH-
CsOH Cs+ + OH-
Common strong and weak bases
p. 475 of text
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Conjugate acid-base reactions
HF (aq) + H2O (l) F- (aq) + H3O+ (aq)
c.a.1 c.b.2 c.b.1 c.a.2
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Amphoteric substances are
those thatcan react as either an
acid or a base.
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Molecules containing –OH groups (hydroxyl groups) can be acidic or amphoteric. The more oxygen atoms, more polar more acidic
Oxyacids
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Oxyacids of chlorine
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Ka for weak acids
Acid-dissociation equilibrium constant (Ka) - A measure of the relative strength of an acid. For the generic acid dissociation reaction with water,
HA (aq) + H2O (l) H3O+ (aq) + A- (aq)
Ka = [H3O+][A- ]
[HA]As the Ka value of an acid increases, so does the strength of the acid. By definition:
strong acid: Ka > 1
weak acid: Ka < 1
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strong acid + water weaker acid + weaker base (water acts as a strong base)
weak acid + water ATTEMPTS TO CONVERT TO stronger acid + stronger base(water acts as a weak base) BUT the reaction cannot naturally proceed in this direction. This is why strong acids dissociate nearly completely whereas weak acids dissociate only slightly.
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The larger the value of Ka, the stronger is the acid.
Ka is a better measure of the strength of an acid than pH because adding more water to the acid solution will not change the value of the equilibrium constant Ka, but it will change the H+ ion concentration on which pH depends.
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Kb for weak basesBase dissociation constant or equilibrium constant, Kb
For the reaction in which the Arrhenius base, BOH, dissociates to form the ions OH- and B+:
BOH OH- + B+ For a Brønsted-Lowry base:
B + H2O BH+ + OH-
Kb = [BH+][OH-]
[B]
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Kb provides a measure of the strength of a base1.if Kb is large, the base is largely
dissociated so the base is strong 2.if Kb is small, very little of the
base is dissociated so the base is weak.
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H2O(l) + H2O(l) H3O+ (aq) + OH- (aq)
Kw = [H3O+] [OH-] = 1 x 10-14
Measurements at 25˚C show that the[H3O+] and [OH-] are each 1 x 10-7 M
Self-ionization of water
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When something is acidic [H3O+] > [OH-];
[H3O+] >1 x 10-7 M and [OH-] < 1 x 10-7 M
When something is basic [H3O+] < [OH-];
[H3O+] <1 x 10-7 M and [OH-] > 1 x 10-7 M
[H3O+] and [OH-] are inversely proportional
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pH means proportion of H+ ion
scale from 0 – 14pH = -log[H3O+] pOH = -log[OH-]
As Kw = 1 x 10-14 we can conclude that
pH + pOH = 14
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pH [H3O+] pOH [OH-]
0 1 14 1 x 10-14 M
1 1 x 10-1 M 13 1 x 10-13 M
2 1 x 10-2 M 12 1 x 10-12 M
3 1 x 10-3 M 11 1 x 10-11 M
4 1 x 10-4 M 10 1 x 10-10 M
5 1 x 10-5 M 9 1 x 10-9 M
6 1 x 10-6 M 8 1 x 10-8 M
7 1 x 10-7 M 7 1 x 10-7 M
8 1 x 10-8 M 6 1 x 10-6 M
9 1 x 10-9 M 5 1 x 10-5 M
10 1 x 10-10 M 4 1 x 10-4 M
11 1 x 10-11 M 3 1 x 10-3 M
12 1 x 10-12 M 2 1 x 10-2 M
13 1 x 10-13 M 1 1 x 10-1 M
14 1 x 10-14 M 0 1
Acidic pH 0-7[H3O+] > [OH-]; [H3O+] > 1 x 10-7 M [OH-] < 1 x 10-
7 M
pH = 7 NEUTRAL[H3O+] = [OH-] 1 x 10-7 M
Basic pH 7-14 [H3O+] < [OH-]; [H3O+] < 1 x 10-7 M [OH-] > 1 x 10-7 M
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pH of common items
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compounds whose colors are sensitive to pH. Indicators change colors because they are eitherweak acids or weak bases.
In basic solution HIn H+ + In-
In acidic solution
Acid – base indicators
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Indicators come in many different colors. The pH range over which an indicator changes color is called its transition interval.
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Blue litmus paper turns red under acidic conditions and red litmus paper turns blue under basic (i.e. alkaline) conditions
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A pH meter determines the pH of a solution by measuring the voltage between the two electrodes that are placed in the solution.
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DR between strong acids and bases always form water and a salt (an ionic compound formed from the cation of the base and the anion of the acid). The net ionic equation is:
H3O+ (aq) + OH- (aq) 2H2O (l)
Neutralization reactions
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Titration is the controlled addition and measurement of the amount of a solution of known concentration required to react completely with a measured amount of a solution of unknown concentration.
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The point at which the two solutions used in atitration are present in chemically equivalentamounts is the equivalence point. The point in atitration at which an indicator changes color iscalled the end point.
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The solution that contains the precisely known concentration of a solute is known as a standard solution. A primary standard is a highly purified solid compound used to check the concentration of the known solution in a titration.
Burettes for acid-base titrations
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Titration curve strong acid + strong base
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Titration curve weak acid + strong base
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Titration curves
chemguide.co.uk
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• solutions composed of a weak acid or base and its salt (ex. CH3COOH and NaCH3COO) and can withstand large changes in pH.
• Buffer capacity is the amount of acid or base a buffer solution can absorb without a significant change in pH. This has very important biological implications.
BUFFERS
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Buffer examplesEx. Blood maintains a pH of 7.4. The conjugate acid-base pair that acts as a buffer system is H2CO3 and HCO3
-.
When there is excess acid presentH3O+ + HCO3
- H2O + H2CO3
When there is excess base presentOH- + H2CO3 H2O + HCO3
-
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