Arrhenius Definition
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Arrhenius DefinitionArrhenius Definition Acids produce hydrogen ions in Acids produce hydrogen ions in
aqueous solution.aqueous solution. Bases produce hydroxide ions Bases produce hydroxide ions
when dissolved in water.when dissolved in water. Limits to aqueous solutions.Limits to aqueous solutions. Only one kind of base.Only one kind of base. NHNH33 ammonia could not be an ammonia could not be an
Arrhenius base.Arrhenius base.
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Bronsted-Lowry DefinitionsBronsted-Lowry Definitions An acid is an proton (HAn acid is an proton (H++) donor and a ) donor and a
base is a proton acceptor.base is a proton acceptor. Acids and bases always come in Acids and bases always come in
pairs.pairs. HCl is an acid..HCl is an acid.. When it dissolves in water it gives its When it dissolves in water it gives its
proton to water.proton to water.
HCl(g) + HHCl(g) + H22O(l) O(l) HH33OO++ + Cl + Cl--
Water is a base makes hydronium ionWater is a base makes hydronium ion
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PairsPairs General equation General equation HA(aq) + HHA(aq) + H22O(l) O(l) H H33OO++(aq) + A(aq) + A--(aq)(aq) Acid + Base Acid + Base Conjugate acid +Conjugate acid +
Conjugate base Conjugate base This is an equilibrium.This is an equilibrium. CompetitionCompetition forfor H H++ betweenbetween H H22O and AO and A--
The stronger base controls direction.The stronger base controls direction. If HIf H22O is a stronger base it takes the HO is a stronger base it takes the H++ Equilibrium moves to right.Equilibrium moves to right.
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Acid dissociation constant KAcid dissociation constant Kaa The equilibrium constant for the The equilibrium constant for the general equation.general equation.
HA(aq) + HHA(aq) + H22O(l) O(l) H H33OO++(aq) + A(aq) + A--
(aq)(aq)
KKaa = [H = [H33OO++][A][A--]]
[HA][HA] HH33OO++ is often written H is often written H++ ignoring ignoring
the water in equation (it is implied).the water in equation (it is implied).
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Acid dissociation constant KAcid dissociation constant Kaa HA(aq) HA(aq) HH++(aq) + A(aq) + A--(aq)(aq)
KKaa = [H = [H++][A][A--]]
[HA] [HA] We can write the expression for We can write the expression for
any acid.any acid. Strong acids dissociate completely.Strong acids dissociate completely. Equilibrium far to right.Equilibrium far to right. Conjugate base must be weak. Conjugate base must be weak.
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Back to PairsBack to Pairs Strong acidsStrong acids
KKaa is largeis large
[H[H++] is equal to ] is equal to [HA][HA]
AA-- is a weaker is a weaker base than waterbase than water
Weak acidsWeak acids
KKaa is smallis small
[H[H++] <<< [HA]] <<< [HA] AA-- is a stronger is a stronger
base than waterbase than water
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Types of AcidsTypes of Acids Polyprotic Acids- more than 1 Polyprotic Acids- more than 1
acidic hydrogen (diprotic, triprotic).acidic hydrogen (diprotic, triprotic). Oxyacids - Proton is attached to Oxyacids - Proton is attached to
the oxygen of an ion.the oxygen of an ion. Organic acids contain the Carboxyl Organic acids contain the Carboxyl
group -COOH with the H attached group -COOH with the H attached to Oto O
Generally very weak.Generally very weak.
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AmphotericAmphoteric Behave as both an acid and a base.Behave as both an acid and a base. Water autoionizesWater autoionizes 2H2H22O(l) O(l) H H33OO++(aq) + OH(aq) + OH--(aq)(aq) KKWW= [H= [H33OO++][OH][OH--]=[H]=[H++][OH][OH--]] At 25ºC KAt 25ºC KWW = 1.0 x10 = 1.0 x10-14-14 In In EVERYEVERY aqueous solution. aqueous solution. Neutral solution [HNeutral solution [H++] = [OH] = [OH--]= 1.0 x10]= 1.0 x10-7-7 Acidic solution [HAcidic solution [H++] > [OH] > [OH--]] Basic solution [HBasic solution [H++] < [OH] < [OH--]]
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pHpH pH= -log[HpH= -log[H++]] Used because [HUsed because [H++] is usually very ] is usually very
smallsmall As pH decreases, [HAs pH decreases, [H++] increases ] increases
exponentiallyexponentially Sig figs only the digits after the Sig figs only the digits after the
decimal place of a pH are significantdecimal place of a pH are significant [H[H++] = 1.0 x 10] = 1.0 x 10-8-8 pH= 8.00 2 sig figs pH= 8.00 2 sig figs pOH= -log[OHpOH= -log[OH--]] pKa = -log KpKa = -log K
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RelationshipsRelationships KKWW = [H = [H++][OH][OH--]] -log K-log KWW = -log([H = -log([H++][OH][OH--])]) -log K-log KWW = -log[H = -log[H++]+ -log[OH]+ -log[OH--]] pKpKWW = pH + pOH = pH + pOH KKWW = 1.0 x10 = 1.0 x10-14-14
14.00 = pH + pOH14.00 = pH + pOH [H[H++],[OH],[OH--],pH and pOH],pH and pOH
Given any one of these we can find Given any one of these we can find the other three.the other three.
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Basic
Acidic Neutral
100
10-
1
10-
3
10-
5
10-
7
10-
9
10-
11
10-
13
10-
14
[H+]
0 1 3 5 7 9 11
13
14
pH
Basic
100
10-
1
10-
3
10-
5
10-
7
10-
9
10-
11
10-
13
10-
14
[OH-]
01357911
13
14
pOH
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Calculating pH of SolutionsCalculating pH of Solutions Always write down the major ions Always write down the major ions
in solution.in solution. Remember these are equilibria.Remember these are equilibria. Remember the chemistry.Remember the chemistry. Do not try to memorize there is no Do not try to memorize there is no
one way to do this.one way to do this.
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Strong AcidsStrong Acids HBr, HI, HCl, HNOHBr, HI, HCl, HNO33, H, H22SOSO44, HClO, HClO44 ALWAYS WRITE THE MAJOR ALWAYS WRITE THE MAJOR
SPECIESSPECIES Completely dissociatedCompletely dissociated [H[H++] = [HA]] = [HA] [OH[OH--] is going to be small because ] is going to be small because
of equilibriumof equilibrium 1010-14-14 = [H = [H++][OH][OH--]] If [HA]< 10If [HA]< 10-7-7 water contributes H water contributes H++
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Weak AcidsWeak Acids Ka will be small.Ka will be small. ALWAYS WRITE THE MAJOR SPECIES.ALWAYS WRITE THE MAJOR SPECIES. It will be an equilibrium problem It will be an equilibrium problem
from the start.from the start. Determine whether most of the HDetermine whether most of the H++
will come from the acid or the water.will come from the acid or the water. Compare Ka or KwCompare Ka or Kw Rest is just like last chapter.Rest is just like last chapter.
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ExampleExample Calculate the pH of 2.0 M acetic Calculate the pH of 2.0 M acetic
acid HCacid HC22HH33OO22 with a Ka 1.8 x10 with a Ka 1.8 x10-5-5
Calculate pOH, [OHCalculate pOH, [OH--], [H], [H++]]
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A mixture of Weak AcidsA mixture of Weak Acids The process is the same.The process is the same. Determine the major species.Determine the major species. The stronger will predominate.The stronger will predominate. Bigger Ka if concentrations are Bigger Ka if concentrations are
comparablecomparable Calculate the pH of a mixture 1.20 Calculate the pH of a mixture 1.20
M HF (Ka = 7.2 x 10M HF (Ka = 7.2 x 10-4-4) and 3.4 M ) and 3.4 M
HOCHOC66HH55 (Ka = 1.6 x 10 (Ka = 1.6 x 10-10-10) )
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Percent dissociationPercent dissociation = = amount dissociated amount dissociated x 100 x 100
initial concentration initial concentration For a weak acid percent dissociation For a weak acid percent dissociation
increases as acid becomes more dilute.increases as acid becomes more dilute. Calculate the % dissociation of 1.00 M Calculate the % dissociation of 1.00 M
and .00100 M Acetic acidand .00100 M Acetic acid (Ka = 1.8 x 10 (Ka = 1.8 x 10--
55)) As [HA]As [HA]00 decreases [H decreases [H++] decreases but ] decreases but
% dissociation increases.% dissociation increases. Le ChatelierLe Chatelier
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The other wayThe other way What is the Ka of a weak acid that What is the Ka of a weak acid that
is 8.1 % dissociated as 0.100 M is 8.1 % dissociated as 0.100 M solution? solution?
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BasesBases The OHThe OH--
is a strong base. is a strong base. Hydroxides of the alkali metals are Hydroxides of the alkali metals are
strong bases because they dissociate strong bases because they dissociate completely when dissolved.completely when dissolved.
The hydroxides of alkaline earths The hydroxides of alkaline earths Ca(OH)Ca(OH)22 etc. are strong dibasic bases, etc. are strong dibasic bases,
but they do not dissolve well in but they do not dissolve well in water.water.
Used as antacids because [OHUsed as antacids because [OH-- ] ]
cannot build up.cannot build up.
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Bases without OHBases without OH--
Bases are proton acceptors.Bases are proton acceptors.
NHNH33 + H + H22O O NHNH44++ + OH + OH--
It is the lone pair on nitrogen that It is the lone pair on nitrogen that accepts the proton.accepts the proton.
Many weak bases contain NMany weak bases contain N BB(aq) (aq) + H+ H22O(l)O(l) BH BH++(aq) (aq) + OH+ OH- -
(aq)(aq)
KKbb = [ = [BHBH++][][OHOH- - ]] [ [BB] ]
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Strength of BasesStrength of Bases
N:
Hydroxides are strong.Hydroxides are strong. Others are weak.Others are weak. Smaller Smaller KKbb weaker base. weaker base.
Calculate the pH of a solution of Calculate the pH of a solution of 4.0 M pyridine4.0 M pyridine (Kb = 1.7 x 10(Kb = 1.7 x 10-9-9))
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Polyprotic acidsPolyprotic acids Always dissociate stepwise.Always dissociate stepwise. The first HThe first H++ comes off much easier comes off much easier
than the second.than the second. Ka for the first step is much bigger Ka for the first step is much bigger
than Ka for the second.than Ka for the second. Denoted KaDenoted Ka11, Ka, Ka22, Ka, Ka33
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Polyprotic acidPolyprotic acid HH22COCO33 HH++ + HCO + HCO33
--
KaKa11= 4.3 x 10= 4.3 x 10-7-7
HCOHCO33-- HH++ + CO + CO33
-2-2
KaKa22= 4.3 x = 4.3 x
1010-10-10
Base in first step is acid in second.Base in first step is acid in second. In calculations we can normally In calculations we can normally
ignore the second dissociation.ignore the second dissociation.
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Calculate the ConcentrationCalculate the Concentration Of all the ions in a solution of 1.00 Of all the ions in a solution of 1.00
M Arsenic acid HM Arsenic acid H33AsOAsO44
KaKa11 = 5.0 x 10 = 5.0 x 10-3-3
KaKa22 = 8.0 x 10 = 8.0 x 10-8-8
KaKa33 = 6.0 x 10 = 6.0 x 10-10-10
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Sulfuric acid is specialSulfuric acid is special In first step it is a strong acid.In first step it is a strong acid. KaKa22 = 1.2 x 10 = 1.2 x 10-2-2
Calculate the concentrations in a Calculate the concentrations in a 2.0 M solution of H2.0 M solution of H22SOSO44
Calculate the concentrations in a Calculate the concentrations in a 2.0 x 102.0 x 10-3-3 M solution of H M solution of H22SOSO44
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Salts as acids and basesSalts as acids and bases Salts are ionic compounds.Salts are ionic compounds. Salts of the cation of strong bases Salts of the cation of strong bases
and the anion of strong acids are and the anion of strong acids are neutral.neutral.
for example NaCl, KNOfor example NaCl, KNO33
There is no equilibrium for strong There is no equilibrium for strong acids and bases.acids and bases.
We ignore the reverse reaction.We ignore the reverse reaction.
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Basic SaltsBasic Salts If the anion of a salt is the conjugate If the anion of a salt is the conjugate
base of a weak acid - basic solution.base of a weak acid - basic solution. In an aqueous solution of NaFIn an aqueous solution of NaF The major species are NaThe major species are Na++, F, F--, and H, and H22OO FF- - + H+ H22O O HF + OHHF + OH--
KKbb =[HF][OH=[HF][OH--]] [F[F- - ]]
but Ka = [Hbut Ka = [H++][F][F--]] [HF] [HF]
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Basic SaltsBasic Salts KKaa x K x Kb b = [HF][OH= [HF][OH--]] x [Hx [H++][F][F--]]
[F[F- - ] ] [HF][HF]
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Basic SaltsBasic Salts KKaa x K x Kb b = [HF][OH= [HF][OH--]] x [Hx [H++][F][F--]]
[F[F- - ] ] [HF][HF]
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Basic SaltsBasic Salts KKaa x K x Kb b = [HF][OH= [HF][OH--]] x [Hx [H++][F][F--]]
[F[F- - ] ] [HF][HF]
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Basic SaltsBasic Salts KKaa x K x Kb b = [HF][OH= [HF][OH--]] x [Hx [H++][F][F--]]
[F[F- - ] ] [HF][HF]
KKaa x K x Kb b =[OH=[OH--] [H] [H++]]
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Basic SaltsBasic Salts KKaa x K x Kb b = [HF][OH= [HF][OH--]] x [Hx [H++][F][F--]]
[F[F- - ] ] [HF][HF]
KKaa x K x Kb b =[OH=[OH--] [H] [H++]]
KKaa x K x Kb b = K= KWW
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KKaa tells us K tells us Kbb The anion of a weak acid is a weak The anion of a weak acid is a weak
base.base. Calculate the pH of a solution of Calculate the pH of a solution of
1.00 M NaCN. Ka of HCN is 6.2 x 1.00 M NaCN. Ka of HCN is 6.2 x 1010-10-10
The CNThe CN-- ion competes with OH ion competes with OH-- for for the Hthe H+ +
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Acidic saltsAcidic salts A salt with the cation of a weak base and A salt with the cation of a weak base and
the anion of a strong acid will be basic.the anion of a strong acid will be basic. The same development as bases leads The same development as bases leads
to to KKaa x K x Kb b = K= KWW
Calculate the pH of a solution of 0.40 M Calculate the pH of a solution of 0.40 M NHNH44Cl (the KCl (the Kbb of NH of NH33 1.8 x 10 1.8 x 10-5-5).).
Other acidic salts are those of highly Other acidic salts are those of highly charged metal ions.charged metal ions.
More on this later.More on this later.
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Anion of weak acid, cation of Anion of weak acid, cation of weak baseweak base
KKaa > K > Kb b acidicacidic
KKaa < K < Kb b basicbasic
KKaa = K = Kb b NeutralNeutral
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Structure and Acid base Structure and Acid base PropertiesProperties
Any molecule with an H in it is a potential Any molecule with an H in it is a potential acid.acid.
The stronger the X-H bond the less acidic The stronger the X-H bond the less acidic (compare bond dissociation energies).(compare bond dissociation energies).
The more polar the X-H bond the The more polar the X-H bond the stronger the acid (use stronger the acid (use electronegativities).electronegativities).
The more polar H-O-X bond -stronger The more polar H-O-X bond -stronger acid.acid.
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Strength of oxyacidsStrength of oxyacids The more oxygen hooked to the The more oxygen hooked to the
central atom, the more acidic the central atom, the more acidic the hydrogen.hydrogen.
HClOHClO44 > HClO > HClO33 > HClO > HClO22 > HClO > HClO
Remember that the H is attached Remember that the H is attached to an oxygen atom.to an oxygen atom.
The oxygens are electronegativeThe oxygens are electronegative Pull electrons away from hydrogenPull electrons away from hydrogen
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Strength of oxyacidsStrength of oxyacids
Electron Density
Cl O H
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Strength of oxyacidsStrength of oxyacids
Electron Density
Cl O HO
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Strength of oxyacidsStrength of oxyacids
Cl O H
O
O
Electron Density
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Strength of oxyacidsStrength of oxyacids
Cl O H
O
O
O
Electron Density
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Hydrated metalsHydrated metals Highly charged Highly charged
metal ions pull metal ions pull the electrons of the electrons of surrounding surrounding water water molecules molecules toward them.toward them.
Make it easier Make it easier for Hfor H++ to come to come off.off.
Al+3 OH
H
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Acid-Base Properties of OxidesAcid-Base Properties of Oxides Non-metal oxides dissolved in Non-metal oxides dissolved in
water can make acids.water can make acids. SOSO33 (g) + H (g) + H22O(l) O(l) H H22SOSO44(aq)(aq)
Ionic oxides dissolve in water to Ionic oxides dissolve in water to produce bases.produce bases.
CaO(s) + HCaO(s) + H22O(l) O(l) Ca(OH) Ca(OH)22(aq)(aq)
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Lewis Acids and BasesLewis Acids and Bases Most general definition.Most general definition. Acids are electron pair acceptors.Acids are electron pair acceptors. Bases are electron pair donors.Bases are electron pair donors.
B FF
F
:NH
H
H
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Lewis Acids and BasesLewis Acids and Bases Boron triflouride wants more Boron triflouride wants more
electrons.electrons.
B FF
F
:NH
H
H
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Lewis Acids and BasesLewis Acids and Bases Boron triflouride wants more Boron triflouride wants more
electrons.electrons. BFBF33 is Lewis Acid NH is Lewis Acid NH33 is a Lewis is a Lewis
Base. Base.
BF
F
F
N
H
H
H
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Lewis Acids and BasesLewis Acids and Bases
Al+3 ( )H
HO
Al ( )6
H
HO
+ 6
+3