Chapter 17: Acids and Bases
decreases
% Ionization ____________ as [HA]initial increases
Ionization
% ________________ = [H3O-]equil/[HA]equil
Strong Acid Weak Acid
-acid that completely ionizes -acid that partially ionizes
Properties of Binary Acids according to Molecular Structure
-acidity increases as electronegativity inceases -acidity decreases as bond strength increases (bond strength has a greater effect than electronegativity on acidity)
Strong Acids
-acids that completely ionize in aqueous solution 1. HCL (Hydrochloric acid) 2. HI (Hydroiodic acid) 3. HCLO4 (Perchloric acid) 4. HBr (Hydrobromic acid) 5. HNO3 (Nitric acid) 6. H2SO4 (Sulfuric acid)
Weak Acids
-acids that only partially ionize in aqueous solution -all acids that aren't the six strong acids
neutral; basic
-conjugate base of a strong acid generally produces a __________ solution -conjugate base of a weak acid produces a ________ solution
Anions (acid-base properties)
-conjugate bases of acids -generally act as weak bases or can be neutral
Cations (acid-base properties)
-counterions of strong bases -conjugate acids of weak bases -small, highly charged metals
Salts (acid-base properties)
-the solution can be acidic, basic, or neutral
Acid-Base Reaction
AKA Neutralization reaction Acid+Base-->Water+Salt
pH
Acidic solution: ___ *<* 7 Neutral solution: ___ *=* 7 Basic solution: ___ *>* 7
pOH
Acidic solution: ___ *>* 7 Neutral solution: ___ *=* 7 Basic solution: ___ *<* 7
inversely
Acids and Bases are __________ related (i.e. when one is stronger, the other is equally weaker)
Bronsted-Lowry Acid-Base Reaction
Base (proton acceptor) + Acid (proton donor) <--> Conjugate Acid + Conjugate Base Ex. (NH3) + (H2O) <--> (NH4+) + (OH-)
*B*. -1.079 -log(12.0)
Calculate the pH of a 12.0 M HCl solution. *A*. -1.38 *B*. -1.079 *C*. -0.778 *D*. 0.0
*B*. HPO4^2- (Base/Proton acceptor)
Dihydrogen phosphate is the conjugate acid to which of the following? *A*. PO4^3- *B*. HPO4^2- *C*. H2PO4- *D*. H3PO4
*D*. H3PO4 (Acid/Proton donor)
Dihydrogen phosphate is the conjugate base to which of the following? *A*. PO4^3- *B*. HPO4^2- *C*. H2PO4- *D*. H3PO4
Equilibrium Constant for Acid Strength
HA(aq) + H2O(l) <--> H3O+(aq) + A-(aq) *Ka = ([H3O+][A-])\[HA]*
*C*. Weak base
HCL is a strong acid, H2S is a weak acid, what would you expect for PH3? *A*. Strong acid *B*. Weak acid *C*. Weak base *D*. Strong base
*A*. PO4^3-
HPO4^2- can serve as an acid. Which of the following will result from the acidic dissociation of this ion? *A*. PO4^3- *B*. HPO4^2- *C*. H2PO4- *D*. H3PO4
acidic, basic
In a(n) __________ solution: [H+] > [OH-] In a(n) __________ solution:[H+] < [OH-]
Henderson-Hasselbalch Equation
Ka = [H+][A-]/[HA] pKa = -log([H+][A-]/[HA] pKa = -(log([H+]) + log([A-]/[HA])) pKa = pH - log([A-]/[HA]) >> *pH* = pKa + log([A-]/[HA]) <<
Ion Product Constant for Water (Kw)
Kw = [H3O+][OH-] = [H+][OH-] (Kw) at 25 deg C is Kw = 1.0 x 10^-14 In a neutral solution, like pure water: [H+] = OH- = 1.0 x 10^-7 at 25 deg C
smaller
The weaker the acid, the __________ the Ka value and the less the acid ionizes in solution
*F*. None of these
What is the pH of a 0.010 M HOac solution that has 10.0% ionization? *A*. 2 *B*. 1 *C*. 0 *D*. -1 *E*. -2 *F*. None of these
*C*. HI (Hydroiodic acid)
Which one of these is a strong acid? *A*. HCN *B*. H2SO4 *C*. HI *D*. H3P *E*. HSCN
increases
[H3O-] ____________ as [HA]initial increases
Titration
a substance of known concentration is reacted with another substance of unknown concentration
Acid (Arrhenius Definition)
a substance that produces H+ ions in aqueous solution
Base (Arrhenius Definition)
a substance that produces OH- ions in aqueous solutionc
Base (Bronsted-Lowry Definition)
accepts a proton (H+ ion and becomes a conjugate acid
Amphoteric
can act as an acid or a base (ex. Water)
acidic; acidic
cations that are the conjugate acids of weak bases produce a(n) _________ solution -cations that are small, highly charged metals produce a(n) _________ solution
Acid (Bronsted-Lowry Definition)
donates a proton (H+ ion) and becomes a conjugate base
Lewis acid
electron pair acceptor
Lewis base
electron pair donor
Properties of Oxyacids according to Molecular Structure
for electron-withdrawing groups, as electronegativity increases, acidity increases -as the number of oxygen atoms attached to Y (central atom) increases, acidity increases
Equivalence Point
just enough titrant has been added to completely react with the analyte
[H+]
pH = -log(___)
[OH-]
pOH = -log(___)
Buffer
resists pH change by neutralizing added acid or base Contains significant amounts of either: -a weak acid and its conjugate base, or -a weak base and its conjugate acid
Indicator
used to identify the equivalence point
Autoionization
where it acts as both an acid and a base to itself
