Acids and BasesAcids and BasesAll you ever wanted to All you ever wanted to
know, and more!know, and more!
DefinitionsDefinitionsArrhenius Arrhenius acidacid – contains H – contains H++ and and
ionizes in water.ionizes in water.HCl + HHCl + H22O O H H33OO
+ + + Cl+ Cl--
hydronium ionhydronium ion - H - H++ ion attached to water ion attached to water HH22OO
+ H+ H++ ↔↔ H H33OO+ +
Properties of AcidsProperties of Acids Taste sourTaste sour ElectrolytesElectrolytes React with bases to form salt & React with bases to form salt &
waterwater ie – HCl + NaOH ie – HCl + NaOH
React with active metals to React with active metals to produce hydrogen gasproduce hydrogen gas ie – HBr + Na ie – HBr + Na
Polyprotic acidsPolyprotic acids Polyprotic - Acids that have many Polyprotic - Acids that have many
protons to donateprotons to donatei.e. Hi.e. H33POPO44
Monoprotic – one proton like HClMonoprotic – one proton like HCl Diprotic – two protons, like HDiprotic – two protons, like H22SOSO44
H’s come off one at a time and H’s come off one at a time and require separate reactions for each H.require separate reactions for each H.
exampleexample
HH22SOSO44 + H + H22O O HSO HSO44-- + H + H++ + +
HH22OO
HSOHSO44-- + H + H22O O SO SO44
-2-2 + H + H++ + H + H22OO
Review on Naming AcidsReview on Naming Acids1.1. Binary Acids – Binary Acids –
A.A. (2 elements, H and some (2 elements, H and some nonmetal)nonmetal)
B.B. Hydro----icHydro----ic2.2. Ternary Acids – Ternary Acids –
A. (3 elements, H & polyatomic ion)A. (3 elements, H & polyatomic ion)1.1. ““ate” ion - ___ic acidate” ion - ___ic acid2.2. ““ite” ion - ___ous acid ite” ion - ___ous acid
Arrhenius Arrhenius basebase – contains – contains OHOH-- and ionizes in water. and ionizes in water.
NaOH + HNaOH + H22O O Na Na++ + OH + OH-- + + HH22OO
Properties of BasesProperties of BasesTaste bitterTaste bitterFeels slipperyFeels slipperyReacts with acid to form salt Reacts with acid to form salt
and waterand waterElectrolytesElectrolytes
BrBrǿǿnsted-Lowry modelnsted-Lowry modelAcid – proton donor Acid – proton donor Base – proton acceptorBase – proton acceptor
What proton? What proton? HH++ ion, once the electron ion, once the electron
is removedis removed
Conjugate acid-base pairsConjugate acid-base pairs Two substances related to each Two substances related to each
other by donating and accepting other by donating and accepting a single proton (Ha single proton (H++))
Equilibrium reactions – reactions Equilibrium reactions – reactions where the forward and reverse where the forward and reverse reactions can both occur. reactions can both occur. (between weak acids and bases)(between weak acids and bases)
exampleexampleHF + HHF + H22O O ↔ H↔ H33OO++ + F + F--
acid base conjugate conjugateacid base conjugate conjugate acid baseacid base
NHNH33 + H + H22O ↔ NHO ↔ NH44++ + OH + OH--
base acid conjugate conjugatebase acid conjugate conjugate acid baseacid base
Water – acid, base or Water – acid, base or neutral?neutral?
Pure water is neutral because Pure water is neutral because [H+] = [OH-]
Water can act like an acid or Water can act like an acid or base depending on what it’s base depending on what it’s mixed withmixed with
Substances that can behave as Substances that can behave as both acid and base are said to be both acid and base are said to be amphotericamphoteric..
Auto Ionization of WaterAuto Ionization of WaterIn pure water, 2 out of every billion In pure water, 2 out of every billion
molecules ionize according to this molecules ionize according to this reaction:reaction:
HOH HOH H H++ + OH + OH--
This yields a concentration in water This yields a concentration in water of:of:
[H[H++] = 1 x 10] = 1 x 10-7-7 M M[OH[OH--] = 1 x 10] = 1 x 10-7 -7 MM
So, all aqueous solutions (water) have both H+ and OH- ions present and the
product, 1 x 10-14, is a constant. If you know [ ] of one you can calculate the
other! [H+] [OH-] = 1 x 10 -14
constant
Ion ConcentrationsIon Concentrations[H[H++] [OH] [OH--] = 1 x 10] = 1 x 10-14-14
1.1. What are the ion concentrations What are the ion concentrations of a 0.000453M solution of HCl?of a 0.000453M solution of HCl?
2.2. What are the ion concentrations What are the ion concentrations of a 0.00250M solution of KOH?of a 0.00250M solution of KOH?
If….
[H+] > [OH-], solution is acidic
[H+] = [OH-], solution is neutral
[H+] < [OH-], solution is basic
pH ScalepH ScalepH stands for pH stands for powerpower of of
HydrogenHydrogenThe pH scale was developed as
an easier method of expressing ion concentrations.
pH = -log[H+]
pH ScalepH Scale
00 acid acid 77 base base 1414
neutralneutral
[H3O+] [OH-] = 1 x 10-14
-lo
g [H
3O+ ]
pH + pOH = 14
antil
og (-
pOH)
antil
og (-
pH)
-log
[OH-
]
Strengths of Acids and Strengths of Acids and BasesBases Strength of acids and bases is Strength of acids and bases is
determined by how much they determined by how much they ionize (how much Hionize (how much H++ or OH or OH-- they they produce.)produce.)
Examples – Examples – HCl HCl H H++ + Cl + Cl--
≈≈100%100%Therefore, HCl is considered strongTherefore, HCl is considered strong..
H22S ↔ HH++ + HS + HS--
>90% <10%
H2S is considered a weak acid because not much H+ is produced
So, how do you know if an acid or base is strong or weak?
Most are weak, so memorize the strong acids and bases then assume everything else to be weak.
Strong AcidsStrong AcidsHCl, hydrochloric acid HCl, hydrochloric acid HBr, hydrobromic acidHBr, hydrobromic acidHI, hydroiodic acidHI, hydroiodic acidHH22SOSO44,, sulfuric acidsulfuric acidHClOHClO44,, perchloric acidperchloric acidHClOHClO33, chloric acid, chloric acidHNOHNO33, nitric acid, nitric acid
Strong BasesStrong BasesNaOH, sodium hydroxideNaOH, sodium hydroxideKOH, potassium hydroxideKOH, potassium hydroxideRbOH, rubidium hydroxideRbOH, rubidium hydroxideCsOH, cesium hydroxideCsOH, cesium hydroxideCa(OH)Ca(OH)22, calcium hydroxide, calcium hydroxideSr(OH)Sr(OH)22, strontium hydroxide, strontium hydroxideBa(OH)Ba(OH)22, barium hydroxide, barium hydroxide
Once we know that an acid or Once we know that an acid or base is weak, then what?base is weak, then what?
Weak acids and bases produce Weak acids and bases produce a solution containing a mixture a solution containing a mixture of molecules and ions. The of molecules and ions. The concentration of the ions is concentration of the ions is determined by using an determined by using an equilibriumequilibrium expressionexpression..
k =k = [products] [products] [reactants][reactants]
(except pure solids and liquids)(except pure solids and liquids)Where:Where:
k = ionization constantk = ionization constant[ ] = concentration in [ ] = concentration in
MolarityMolarity
Equilibrium Expressions
exampleexampleHCHC22HH33OO22 + H + H22O(O(l l ) ) ↔↔ C C22HH33OO22
-- + + HH33OO++
KK = = [C [C22HH33OO22--] [H] [H33OO++]]
[HC[HC22HH33OO22]]
R I C ER I C ER = REACTIONR = REACTION
I = INITIAL concentrationI = INITIAL concentration
C = CHANGE in concentrationC = CHANGE in concentration
E = EQUILIBRIUM concentrationE = EQUILIBRIUM concentration
Example…Example…1. What are the ion 1. What are the ion
concentrations of 0.5M HIO, concentrations of 0.5M HIO, kkaa = 2.3 x 10 = 2.3 x 10-11-11
2. What is the pH?2. What is the pH?
Equilibrium always favors the weaker
acid/base pair.
NeutralizationNeutralizationWhen a strong acid reacts When a strong acid reacts
with a strong base to form a with a strong base to form a salt and water.salt and water.
Example:Example:2NaOH + H2NaOH + H22SOSO44 Na Na22SOSO44 + 2H + 2H22OO
Titration ProblemsTitration ProblemsTitration – using a solution of Titration – using a solution of
known concentration to known concentration to determine the concentration determine the concentration of an unknown solutionof an unknown solution
Standard solution – solution Standard solution – solution of known concentrationof known concentration
Equivalence Point – the point Equivalence Point – the point when there are equal molar when there are equal molar amounts of acid and baseamounts of acid and base
Indicator – substance that Indicator – substance that changes color as the pH changes color as the pH changes. Indicators are changes. Indicators are chosen to change at the chosen to change at the equivalence point, called the equivalence point, called the end pointend point..
exampleexampleIn a titration, 42.8 mL of a In a titration, 42.8 mL of a
standard solution of Ca(OH)standard solution of Ca(OH)22 is added to 20.5 mL sample of is added to 20.5 mL sample of HCl. The concentration of the HCl. The concentration of the calcium hydroxide is 0.35 M. calcium hydroxide is 0.35 M. What is the molarity of the What is the molarity of the acid solution?acid solution?
Steps for Solving Steps for Solving ProblemsProblems
MMaaVVaaH’s = MH’s = MbbVVbbOH’sOH’s