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description
Transcript of Background
Background
[C] [D]
[Products]
A(g) + 2 B(g) 3 C(g) + D(g)
Equilibrium constant (Keq) =
Keq = LeChatelier’s Principle (lu-SHAT-el-YAY’s)
[Reactants]
[A][B]
3
2
A florence flask was getting dressed for the opera. All of a sudden she screamed: "Erlenmeyer, my joules! Somebody has stolen my joules!". The husband replied: "Take it easy honey, do not overreact. We'll find a solution".
Acids, Bases, and Salts
Ch. 19
Acids
• Properties– Taste sour or tart– Change the color of an acid-base indicator– Can be strong or weak electrolytes in
aqueous solution
Bases
• Properties– Taste bitter– Feel slippery– Will change the color of an acid-base indicator– Can be strong or weak electrolytes in aqueous
solution
Q: Why do chemistry professors like to teach about ammonia? A: Because it's basic stuff.
During class, the chemistry professor was demonstrating the properties of various acids. “Now I’m going to drop this silver coin into this glass of acid. Will it dissolve?”“No sir,” one student called out.“No?” queried the professor. “Perhaps you can explain why the silver won’t dissolve in this particular acid.”“Because if it would, you wouldn’t have dropped it in!”
Acid vs. Base
Acid
pH > 7
bitter taste
does notreact with
metals
pH < 7
sour taste
react withmetals
Alike Different
Related toH+ (proton)
concentration
pH + pOH = 14
Affects pHand
litmus paper
Base
Different
Topic Topic
Properties
electrolytes
turn litmus red
sour taste
react with metals to form H2 gas
slippery feel
turn litmus blue
bitter taste
ChemASAP
vinegar, milk, soda, apples, citrus fruits
ammonia, lye, antacid, baking soda
electrolytes
Common Acids and Bases
Strong Acids (strong electrolytes)
HCl hydrochloric acidHNO3 nitric acidHClO4 perchloric acidH2SO4 sulfuric acid
Weak Acids (weak electrolytes)
CH3COOH acetic acidH2CO3 carbonic
Strong Bases (strong electrolytes)
NaOH sodium hydroxideKOH potassium hydroxideCa(OH)2 calcium hydroxide
Weak Base (weak electrolyte)
NH3 ammonia
NH3 + H2O NH4OH
Common AcidsFormula Name of Acid Name of
Negative Ion of Salt
HF hydrofluoric fluorideHBr hydrobromic bromideHI hydroiodic iodideHCl hydrochloric chlorideHClO hypochlorous hypochloriteHClO2 chlorous chloriteHClO3 chloric chlorateHClO4 perchloric perchlorateH2S hydrosulfuric sulfideH2SO3 sulfurous sulfiteH2SO4 sulfuric sulfateHNO2 nitrous nitriteHNO3 nitric nitrateH2CO3 carbonic carbonateH3PO3 phosphorous phosphiteH3PO4 phosphoric phosphate
Common Bases
Sodium hydroxide NaOH lye or caustic soda
Potassium hydroxide KOH lye or caustic potash
Magnesium hydroxide Mg(OH)2 milk of magnesia
Calcium hydroxide Ca(OH) 2 slaked lime
Ammonia water NH3 H2O household ammonia
Have you heard the one about a chemist who was reading a book about heliumand just couldn't put it down?
Arrhenius Acids and Bases• Arrhenius said that acids are hydrogen-containing compounds that
ionize to yield hydrogen ions (H+) in aqueous solution• Bases are compounds that ionize to yield hydroxide ions (OH-) in
aqueous solution• Monoprotic acids = acids that contain 1 ionizable hydrogen like nitric acid
(HNO3)• Diprotic acids = acids that contain 2 ionizable hydrogens like sulfuric acid
(H2SO4)• Triprotic acids = acids that contain 3 ionizable hydrogens like phosphoric
acid (H3PO4)• Hydroxides of group I metals are very soluble in water and caustic to skin,
hydroxide of group II metals are not very soluble in water and very dilute even when saturated (can be taken internally)Q: if both a bear in Yosemite and one in Alaska
fall into the waterwhich one disolves faster?A: The one in Alaska because it is Polar.
Bronsted-Lowry Acids and Bases
• But what about bases like sodium carbonate (Na2CO3) and ammonia (NH3)???– The Bronsted-Lowry theory defines an acid as a
hydrogen-ion donor, and a base as a hydrogen-ion acceptor
– More complete definition
Conjugate Acids and Bases• Conjugate acid = the particle formed when a base
gains a hydrogen ion• Conjugate base = the particle that remains when an
acid has donated a hydrogen ion– Conjugate acids and bases are always paired w/ a base
or an acid, respectively• Conjugate acid-base pair = consists of 2 substances
related by the loss or gain of a single hydrogen ion.
Cont…
• A water molecule that gains a hydrogen ion becomes a positively charged Hydronium ion (H3O+)
• Amphoteric = a substance that can act as both an acid and a base – EX: Water
Lewis Acids and Bases• Lewis proposed that an acid accepts a pair of
electrons during a reaction while a base donates a pair of electrons– More general than either of the other 2 theories
• Lewis acid = a substance that can accept a pair of electrons to form a covalent bond
• Lewis base = a substance that can donate a pair of electrons to form a covalent bond
Acid – Base Systems
Type Acid Base
Arrhenius H+ or H3O + producer
OH - producer
Brønsted-Lowry
Proton (H +) donor
Proton (H +) acceptor
Lewis Electron-pair acceptor
Electron-pair donor
• Many Lewis acids are also Bronsted-Lowry acids and vice versa but not all
• *PP 1-2, 19.1 sect. assessment #8 pg. 593
Copper leaves Copper Sulfate and says see you: he answers CuSO4!!!!!
Ion Product Constant for Water• Self-ionization of water = the reaction in which water molecules produce
ions
• For aqueous solutions, the product of the hydrogen-ion concentration and the hydroxide-ion concentration equals 1.0 x 10 -14
– [H+] x [OH-] = 1.0 x 10-14
• ion-product constant for water (KW) = the product of the concentrations of the hydrogen ions and hydroxide ions in water
• Acidic solution = one in which [H+] is greater than [OH-]– *The [H+] is greater than 1 x 10-7 M*
• Basic solution = one in which [H+] is less than [OH-]– *The [H+] is less than 1 x 10-7 M*
• *SP 19.1, PP 9-10 pg. 596
pH Scale
Acid Base
0
7
14
[H+] pH
10-14 14
10-13 13
10-12 12
10-11 11
10-10 10
10-9 9
10-8 8
10-7 7
10-6 6
10-5 5
10-4 4
10-3 3
10-2 2
10-1 1
100 0
1 M NaOH
Ammonia(householdcleaner)
BloodPure waterMilk
VinegarLemon juiceStomach acid
1 M HCl
Aci
dic
N
eutra
l
Bas
ic
pH of Common Substances
1.0 MHCl0
gastricjuice1.6
vinegar2.8
carbonated beverage3.0
orange3.5
apple juice3.8
tomato4.2
lemonjuice2.2 coffee
5.0
bread5.5
soil5.5
potato5.8
urine6.0
milk6.4
water (pure)7.0
drinking water7.2
blood7.4
detergents8.0 - 9.0bile8.0
seawater8.5
milk of magnesia10.5
ammonia11.0
bleach12.0
1.0 MNaOH(lye)14.0
8 9 10 11 12 14133 4 5 621 70
acidic neutral basic[H+] = [OH-]
pH of Common Substance
14 1 x 10-14 1 x 10-0 0 13 1 x 10-13 1 x 10-1 1 12 1 x 10-12 1 x 10-2 2 11 1 x 10-11 1 x 10-3 3 10 1 x 10-10 1 x 10-4 4 9 1 x 10-9 1 x 10-5 5 8 1 x 10-8 1 x 10-6 6
6 1 x 10-6 1 x 10-8 8 5 1 x 10-5 1 x 10-9 9 4 1 x 10-4 1 x 10-10 10 3 1 x 10-3 1 x 10-11 11 2 1 x 10-2 1 x 10-12 12 1 1 x 10-1 1 x 10-13 13 0 1 x 100 1 x 10-14 14
NaOH, 0.1 MHousehold bleachHousehold ammonia
Lime waterMilk of magnesia
Borax
Baking sodaEgg white, seawaterHuman blood, tearsMilkSalivaRain
Black coffeeBananaTomatoesWineCola, vinegarLemon juice
Gastric juice
Mor
e ba
sic
Mor
e ac
idic
pH [H1+] [OH1-] pOH
7 1 x 10-7 1 x 10-7 7
pH Concept
• pH = the negative logarithm of the hydrogen-ion concentration of a solution
• A solution in which [H+] if greater than 1 x 10-7 M has a pH less than 7.0 and is acidic. The pH of pure water or a neutral aqueous solution is 7.0. A solution with a pH greater than 7 is basic and has a [H+] of less than 1 x 10-7 M.
Søren Sorensen(1868 - 1939)
Cont…• The pOH of a solution equals the
negative logarithm of the hydroxide-ion concentration
– A solution w/ a pOH less than 7 is basic, greater than 7 is acidic
• For pH calculations, you should express the hydrogen-ion concentration in scientific notation
• *SP 19.2, PP 11 pg. 599• *Given pH = 4.6 determine the
hydronium ion• *SP 19.3-19.4, PP 13-16 pg. 600-
601
pH Calculations
pH
pOH
[H3O+]
[OH-]
pH + pOH = 14
pH = -log[H3O+]
[H3O+] = 10-pH
pOH = -log[OH-]
[OH-] = 10-pOH
[H3O+] [OH-] = 1 x10-14
Strength of Acids and Bases
• Strong Acids = completely ionized in aqueous solution– HCl and H2SO4
• Weak Acids = ionize only slightly in aqueous solution– Ethanoic acid (acetic acid)
Comparison of Strong and Weak Acids
Type of acid, HA Reversibilityof reaction
Ka value Ions existing when acid,HA, dissociates in H2O
Strong Notreversible Ka value very large H+ and A-, only.
No HA present.
Weak reversible Ka is small H+, A-, and HA
HA(aq) + H2O(l) H3O+(aq) + A-(aq)
The equilibrium expression for the reaction is
Ka = [H3O+] [A-]
[HA]Note: H3O+ = H+
Relative Strengths of Acids and Bases
perchloric HClO4
hydrogen chloride HClnitric HNO3
sulfuric H2SO4
hydronium ion H3O+
hydrogen sulfate ion HSO4-
phosphoric H3PO4
acetic HC2H3O2
carbonic H2CO3
hydrogen sulfide H2Sammonium ion NH4
+
hydrogen carbonate ion HCO3-
water H2Oammonia NH3
hydrogen H2
Dec
reas
ing
Aci
d S
treng
th
perchlorate ion ClO4-
chloride ion Cl-nitrate ion NO3
-
hydrogen sulfate ion HSO4-
water H2Osulfate ion SO4
2-
dihydrogen phosphate ion H2PO4-
acetate ion C2H3O2-
hydrogen carbonate ion HCO3-
hydro sulfide ion HS-
ammonia NH3
carbonate ion CO32-
hydroxide ion OH-
amide ion NH2-
hydride ion H-
Dec
reas
ing
Bas
e S
treng
th
Acid Formula Conjugate base Formula
acid conjugate base + H+
Acid Dissociation Constant• For dilute solutions, the conc. of water is a constant. It can be combined w/
Keq to give the acid dissocation constant.• Acid dissociation constant = the ratio of the concentration of the
dissociated (or ionized) form of an acid to the concentration of the undissociated (nonionized) form.
• Weak acids have small Ka values. The stronger an acid is, the larger is its Ka value.– Nitrous acid (HNO2) has a Ka of 4.4 x 10-4, acetic acid has a Ka of 1.8 x 10-5 so
nitrous acid is more ionized and has a higher [H3O+] or [H+] thus is a stronger acid
• Di and triprotic acids lose each H separately so they have multiple dissociation constants
[H3O+]
Equilibrium and pH Calculations
HA + H2O H3O+ + A-
Weak acid
HA + H2O H3O+ + A-
Strong acid
acid-dissociationconstant calculations
Ka = [A-] [H3O+]
[HA]
[HA] = [H3O+]
+
pH0 7 14
antilog(-pH)
-log [H3O+] [OH-]-
1 x 10-14
[OH-]=
1 x 10-14
[H3O+] =
HA H+ + A-
Kw = [H3O+][OH-]1 x 10-14 = [H3O+][OH-]
Base Dissociation Constant
• Strong bases = dissociate completely into metal ions and hydroxide ions in aqueous solution– Ex: Ca(OH)2
• Weak bases = react w/ water to form the hydroxide ion and the conjugate acid of the base– Ex: ammonia NH3
• Base dissociation constant (Kb) = the ratio of the concentration of the conjugate acid times the conc. of the hydroxide ion to the conc. of the base
Calculating Dissociation Constants
• To find the Ka of a weak acid or the Kb of a weak base, substitute the measured concentration of all the substances present at equilibrium into the expression for Ka or Kb.
• *SP 19.5, PP 22-23 pg. 610
[C] [D]
[Products]
A(g) + 2 B(g) 3 C(g) + D(g)
Weak Acids (pKa) Weak Acids – dissociate incompletely (~20%)Strong Acids – dissociate completely (~100%)
Equilibrium constant (Keq) =
Keq = LeChatelier’s Principle (lu-SHAT-el-YAY’s)
[Reactants]
[A][B]
3
2
Formula Name Value of Ka*
Values of Ka for Some Common Monoprotic Acids
HSO4- hydrogen sulfate ion 1.2 x 10-2
HClO2 chlorous acid 1.2 x 10-2
HC2H2ClO2 monochloracetic acid 1.35 x 10-3
HF hydrofluoric acid 7.2 x 10-4
HNO2 nitrous acid 4.0 x 10-4
HC2H3O2 acetic acid 1.8 x 10-5
HOCl hypochlorous acid 3.5 x 10-8
HCN hydrocyanic acid 6.2 x 10-10
NH4+ ammonium ion 5.6 x 10-10
HOC6H5 phenol 1.6 x 10-10
*The units of Ka are mol/L but are customarily omitted.
Incr
easi
ng a
cid
stre
ngth
H2SO4 2 H+ + SO42- in dilute solutions...occurs ~100%
H2SO4 H+ + HSO41- & HSO4
1- H+ + SO4
2-
One gram of concentrated sulfuric acid (H2SO4) is diluted to a 1.0 dm3 volume with water. What is the molar concentration of the hydrogen ion in this solution? What is the pH?
x mol H2SO4 = 1 g H2SO4
Solution)First determine the number of moles of H2SO4
Sample 1)
= 0.010 mol H2SO4
OVERALL:
pH = - log [H+]
pH = 1.69
0.010 M 0.020 M
substitute into equation pH = - log [0.020 M]
98 g H2SO4
1 mol H2SO4
A volume of 5.71 cm3 of pure acetic acid, HC2H3O2, is diluted with water at 25 oC to form a solution with a volume of 1.0 dm3.
Step 2) Find the number of moles of acid.
x mol acetic acid = 6.00 g HC2H3O2 = 0.10 mol acetic acid (in 1 L)
M = 0.1 molar HC2H3O2
Step 3) Find the [H+]Ka =
Step 1) Find the mass of the acidMass of acid = density of acid x volume of acid
= 1.05 g/cm3 x 5.71 cm3
= 6.00 g
Molarity: M = mol / LSubstitute into equation M = 0.10 mol / 1 L
What is the molar concentration of the hydrogen ion, H+, in this solution? (The density of pure acetic acid is 1.05 g/cm3.)
(From the formula of acetic acid, you can calculate that the molar mass of acetic acid is 60 g / mol).
60 g HC2H3O2
1 mol HC2H3O2
Step 3) Find the [H+]
H C H OHC H O
12 3 2
2 3 2
[ ][ ][ ]
1.8 x 10-5 =
Ka = 1.8 x 10-5 @ 25 oC for acetic acid
H C H OHC H O
12 3 2
2 3 2
[ ][ ][ ]
Ka =
Substitute into equation: ]OH[HC
[x][x] 10 x 1.8232
5-
]M [0.10x 10 x 1.8
25-
x2 = 1.8 x 10-6 M
x = 1.3 x 10-3 molar = [H+]
HC2H3O2 H+ + C2H3O21-
0.1 M
pH = - log[H+]
pH = - log [1.3 x10-3 M]
pH = 2.9
?0.1 M
weak acid
How do the concentrations of H+ and C2H3O2
1- compare?
1a) What is the molar hydrogen ion concentration in a 2.00 dm3 solution
of hydrogen chloride in which 3.65 g of HCl is dissolved? 1b) pH
2a) What is the molar concentration of hydrogen ions in a solution containing 3.20 g of HNO3 in 250 cm3 of solution?
2b) pH
3a) An acetic acid solution is 0.25 M. What is its molar concentration of
hydrogen ions?3b) pH
4) A solution of acetic acid contains 12.0 g of HC2H3O2 in 500 cm3 of solution. What is the molar concentration of hydrogen ions?
1a) 0.0500 M 2a) 0.203 M 3a) 2.1 x 10-3 M 4) 2.7 x 10-3 M1b) pH = 1.3 2b) pH = 0.7 3b) pH = 2.7
Practice Problems:
Weak AcidsCyanic acid is a weak monoprotic acid. If the pH of 0.150 M cyanic acid is 2.32.calculate Ka for cyanic acid.
HCN(aq) H+(aq) + CN1-(aq)
H3O+(aq)
0.150 M 4.8 x 10-3 M
Ka = [Products][Reactants]
Ka = [H3O+]
[HCN]
[CN1-]
Ka = [4.8 x 10-3 M]
[0.150 M]
[CN1-][4.8 x 10-3 M]
Ka = 1.54 x 10-4
4.8 x 10-3 M
pH = -log[H3O+]
10-pH = [H3O+]
10-2.32 = [H3O+]
4.8 x10-3 M = [H3O+]
Titration• Neutralization Reaction = a reaction b/w an acid and a
base in aqueous solution to produce salt and water• Equivalence point = when the # of moles of hydrogen ions
equals the number of moles of hydroxide ions• Titration = the process of adding a known amt. of solution
of known conc. to determine the conc. of another solution– Standard solution = the solution of known conc.– End point = the point at which the indicator changes color
• The point of neutralization is the end pt. of the titration• *SP 19.7, PP 32-33 pg. 616
Q: How do you get lean molecules?A: Feed them titrations. Q: What did one titration say to the other? A: Let's meet at the endpoint!
Q: How did the chemist survive the famine?A: By subsisting on titrations.
Buffers
• Buffer = a solution in which the pH remains relatively constant when small amts. of acid or base are added
• A buffer is a solution of weak acids and one of its salts or a solution of a weak base and one of its salts
• A buffer solution is better able to resist drastic changes in pH than is pure water
• Buffer capacity = the amt. of acid or base that can be added to a buffer solution before a significant change in pH occurs
Naming Acids
_________ ide(chloride, Cl1-)
_________ite(chlorite, ClO2
-)(hypochlorite, ClO-)
_________ ate(chlorate, ClO3
-)(perchlorate, ClO4
-)
Hydro____ ic acid(hydrochloric acid, HCl)
_________ic acid(chloric acid, HClO3)
(perchloric acid, HClO4)
______ous acid(chlorous acid, HClO2)
(hypochlorous acid, HClO)
Anion Acid
add H+
add H+
add H+
ions
ions
ions
Review
What does one do with a dead body? Barium in a krypt-onMaybe he was killed oxydentally.They should have seen the doctor first, he'd Curium.Ah, barium anyway, just to see how he reacts.better though to have helium.Perhaps with a houseplant, a Germanium.And if they stole it, the police would Cesium.Locked up for life, in Irons.They would go crazy in jail, a Silicon.
A physicist, biologist and a chemist were going to the ocean for the first time.
The physicist saw the ocean and was fascinated by the waves. He said he wanted to do some research on the fluid dynamics of the waves and walked into the ocean. Obviously he was drowned and never returned.
The biologist said he wanted to do research on the flora and fauna inside the ocean and walked inside the ocean. He too, never returned.
The chemist waited for a long time and afterwards, wrote the observation, "The physicist and the biologist are soluble in ocean water".
pH scale0
7
14
acid
neutral
base
[H+] = [OH-]
Soren Sorenson developed pH scale
pOH = -log [OH-]
kW = [H+] [OH-]
pH = -log [H+]
pH + pOH = 14
(alkalinity)
Arnold Beckman invented the pH meter
H+ + H2O H3O+
proton hydronium ion
kw = 1 x 10-14
Strong / Weak Acid
Strong HA H+ + A- (~100% dissociation)
Weak HA H+ + A- (~20% dissociation)
Ka = [Product][Reactant]
acid dissociation constant
Ka
0.8 H3PO4 3H+ + PO43-
0.0021 HF H+ + F-
H2A 2 H+ + A-
Ka = [H+]2 [A-]
[H2A]
Acid + Base Salt + Water
How would you make calcium sulfate in the lab?
+ CaSO4
ACID
Sour taste, litmus red
Arrhenius – H+ as only ion in water
Brønsted-Lowry – proton donor
BASE
bitter taste, litmus blue
Arrhenius – OH- as only ion in water
Brønsted-Lowry – proton acceptor
H2SO4 Ca(OH)2 + 2 H2O
? ?