a state of no net change in reactant & product ... equilibrium and ksp.pdf · rate of the...
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Chemical EquilibriumA state of no net change in reactant & product concentrations.
BUT…
There is a lot of activity at the molecular level.
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Kinetics EquilibriumFor an “elementary step” in the mechanism:
A + 2B AB2kfkr
ratef = kf[A][B]2
rater = kr[AB2]
Kinetics Equilibrium
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A + 2B AB2If start with only reactants, forward rate is high. As products build up, reverse rate increases and forward rate decreases.
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Kinetics Equilibriumratef = kf[A][B]2
rater = kr[AB2]
equal ratesRate vs.
Time
ratef = kf[A][B]2
rater = kr[AB2]
equal rates
reactants
prod.
equilibrium,no change
Conc. vs.
Time
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At equilibrium: ratef = rater
A + 2B AB2kfkr
Kinetics Equilibrium
kf[A][B]2 = kr[AB2]
kfkr
=[AB2]
[A][B]2= Kc
EquilibriumConstant
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Since kf and kr are constants depending only on temp.,Kc is also a constant depending on temp.
Kinetics Equilibrium
Kc describes the ratio of products to reactants at equilibrium.
Kc = kfkr
=[AB2]
[A][B]2
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Chemical Equilibrium
reactants productsA + B C + D
Chemical equilibrium is when the rate of the forward reaction equals the rate of the reverse reaction. At equilibrium, concentrations do not change.
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Chemical EquilibriumN2O4(g) 2NO2(g)colorless brown
This reaction can be monitored spectroscopically.
Draw Lewis structure of NO2
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N2O4(g) 2NO2(g)
time2 time3 time4
no change
time1
100% N2O4
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conc
ent
ration
time time time
Exp.#1 Exp.#2 Exp.#3
N2O4(g) 2NO2(g)
N2O4N2O4
NO2NO2
N2O4
NO2
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N2O4(g) 2NO2(g)Final concentrations depend
on what you start with.At equilibrium, forward and
reverse rates are equal.
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Equilibrium Constant (K)aA + bB cC + dD
K is independent of concentrations; it depends only on temperature.
K = [C]c[D]d
[A]a[B]bExponents are the coefficients
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Equilibrium Constant
K =[C]c[D]d
[A]a[B]b
K<10-3 10-3<K<103 K>103
react. prod. react. prod. react.prod.mostly similar mostly
reactants mixture products
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Equilibrium ConstantUnits are important even though they are not written !!
Kc :concentration (M)
Kp :pressure (atm)
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Types of EquilibriaHomogeneous: all reactants and products in same phase.
Heterogeneous: reactants and products in different phases.
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Homogeneous EquilibriaN2O4(g) 2NO2(g)
P2NO2PN2O4
Kp =
[ ] = M = mol/LPartial P (atm)
(P a conc.)
Kc = [NO2]2
[N2O4]
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Relationship: Kc and KpaA(g) bB(g)
Kp =PB
b
PAa
PA =(nART)/V
=[A]RT
PB =(nBRT)/V
=[B]RT
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Kp=PB
b
PAa
([B]RT)b
([A]RT)a=
Relationship: Kc and Kp
Dngas = mol prodgas – mol reactgas
=[B]b
[A]a(RT)Dngas
=[B]b
[A]a(RT)b-aKp
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Kp =[B]b
[A]a(RT)Dn
Relationship: Kc and Kp
If Dn = 0, then Kp = Kc
Kp = Kc(RT)Dn
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K’cUsed when the concentration of one of the reacting chemicals doesn’t change.
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Relationship: Kc and K’ce.g. ionization of aqueous acetic acid
(CH3COOH(aq) = HAc)
HAc + H2O Ac- + H3O+
K’c =[Ac-][H3O
+]
[HAc][H2O]
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Relationship: Kc and K’c
K’c =[Ac-][H3O
+]
[HAc][H2O]
But [H2O], the solvent, doesn’t change significantly during the course of the reaction; it is ~constant.
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K’c [H2O] = Kc
K’c =[Ac-][H3O
+]
[HAc][H2O]
Relationship: Kc and K’c
[Ac-][H3O+]
[HAc]=
Solvent is dropped from Kc.
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Let’s Try Some ProblemsWrite Kc and Kp for:
HF(aq) +H2O H3O+(aq) + F-(aq)
2NO(g) + O2(g) 2NO2(g)
CH3COOH(aq) + C2H5OH(aq)
CH3COOC2H5(aq) + H2O
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Some More Fun ! At equilibrium at 230 oC:
2NO + O2 2NO2
0.0542 M 0.127 M 15.5 M
Calculate Kc and Kp
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Yes, There’s More !PCl5(g) PCl3(g) + Cl2(g)
Kp = 1.05 at 250oC
If PPCl5 = 0.875 atm
and PPCl3 = 0.463 atm
What is PCl2 ?
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Heterogeneous EquilibriaCaCO3(s) CaO(s) + CO2(g)
[CaCO3] and [CaO] = constant
The conc. of a solid is an intrinsic property:
K’c = [CaO][CO2]
[CaCO3]
CaCO3 CaO
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Heterogeneous Equilibria
K’c = [CaO][CO2]
[CaCO3]
= KcK’c[CaCO3]
[CaO]= [CO2]
(as long as CaO and CaCO3 are present)
Solids and liquids dropped from Kc.
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Try It !!!
Write Kc and Kp for:
AgCl(s) Ag+(aq) + Cl-(aq)
P4(s) + 6Cl2(g) 4PCl3(l)
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Keep Going
CaCO3(s) CaO(s) + CO2(g)
Calculate Kp and Kc if PCO2is 180 mmHg at 800oC.
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Multiple EquilibriaA + B C + D K’cC + D E + F K’’c
overall
A + B E + F Kc
K’cK’’c =[C][D] [E][F][A][B] [C][D]
= Kcx
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Multiple Equilibria
K’cK’’c = Kc
(useful in many acid-base problems)
For sequential equilibria:
If add reactions multiply K’s
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Try it !!!H2CO3(aq) H+ + HCO3
-
Kc = 4.2 x 10-7
HCO3-(aq) H+ + CO3
-2
Kc = 4.8 x 10-11
What is the expression for and value of overall Kc ?
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Summary1.For reverse reaction,
Kc(reverse) = 1/Kc(forward)
Kc = 4.63 x 10-3N2O4(g) 2NO2(g)
2NO2(g) N2O4(g)K’c = 216
And KcK’c = 1
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Summary2. Kc depends how
equation is written.
N2O4(g) 2NO2(g) Kc
Kc = K’c
2N2O4(g) 4NO2(g) K’c
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Summary3. Units of reactants &
products are mol/L for Kc and atm for Kp.
4. Kc and Kp are unit-less
5. Solvents, & pure solids & liquids are not in Kc
Summary
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6. Must specify equation & T(the value of K can only change with temp.)
7. For sequence of reactions that add to a net reaction: Kc = K’cK’’c
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Give It a Shot
How are the Kc values for the following equations related?
N2(g) + 3H2(g) 2NH3(g)
N2(g) + H2(g) NH3(g)13
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Qc & Qp
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What if the concentrations of reactants and products are not at equilibrium?
We define a new quantity Q, similar to K but using the actual concentrations [X]o rather than equilibrium concentrations [X].
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Qc & Qp
Qc =[C]o
c[D]od
[A]oa[B]o
b
aA + bB cC + dDFor the reaction:
The reaction direction can be determined by comparing Q vs. K.
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Reaction Quotient: Qc
If Qc > Kc, reaction proceeds to left.
If Qc = Kc, at equilibrium.If Qc < Kc, reaction proceeds
to right.
Qc =[C]o
c[D]od
[A]oa[B]o
b
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Try It!N2(g) + 3H2(g) 2NH3(g)
At reaction start:N2 = 0.249 molH2 = 3.21 x 10-2 molNH3 = 6.42 x 10-4 mol
in 3.50 L flask
If Kc = 1.2, which direction will the reaction proceed?
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Calculating ConcentrationsFor the reaction: A B
Kc = 24.0 and
[A]o = 0.850 M
[B]o = 0 M
What are the equilibrium concentrations of A and B?
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Calculating Concentrationsusing “ICE” Table
A BInitial (M) 0.850 0
Change (M) -1x +1x
Equil. (M) (0.850 – x) x
Substitute into Kc
changecontrolled by stoich.
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Calculating Concentrations
Kc = 24.0 = [B][A]
= x(0.850 – x)
x = .816 M = [B]
0.850 – x = 0.034 M = [A]
and
Substitute into Kc to check.
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Give It A Shot!
Kc = 54.3 at 430oC
H2(g) + I2(g) 2HI(g)
If start with 0.500 mol each of H2 and I2 in a 1.00 L flask, what are equilibrium concentrations of all species?
Try Another
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2NO2(g) 2NO(g) + O2(g)
Starting with pure NO2, it is found that partial pressure of O2 at equilibrium is 0.25 atm.
Calculate PNO and PNO2.
At 1000 K, Kp = 158
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Quadratics are Possible!
Set up ICE table and substitute into Kc: 0.062 M = [H2]o
0.041 M = [I2]o0.22 M = [HI]o
(Don’t solve!)
H2(g) + I2(g) 2HI(g)Kc = 54.3
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Factors Affecting Equilibrium
Changes in external variables (T, P, concentrations, etc.) can shift equilibrium to right or left.
rightproducts
leftreactants
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Le Chatelier’s Principle
If a stress (change) is applied to a system at equilibrium, the system will adjust to partially offset the stress.Stresses:• concentration & dilution• pressure/volume (gases)• temperature
Le Chatelier’s Principle
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N2(g) + 3H2(g) 2NH3(g)
Haber synthesis of ammonia:
If additional N2 is added at equilibrium, what happens to:• rate of forward reaction?• rate of reverse reaction?• amounts of each substance?
N2(g) + 3H2(g) 2NH3(g)
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conc
ent
ration
time
initial
equilibrium
new
equilibrium
H2
NH3
N2 N2added
obeyK
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Concentration StressConsider the equilibrium:
FeSCN+2 Fe+3 + SCN-
red yellow clear
Add NaSCN left redAdd Fe(NO3)3 left red
“stress”:
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Concentration Stress
“stress”
Add H2C2O4
Fe+3 + 3C2O4-2 Fe(C2O4)3
-3
Thus right
FeSCN+2 Fe+3 + SCN-
red yellow clear
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Concentration StressIf concentrations of reactants or products change,the system will respond in accordance with Kc.
Kc = productsreactants
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Concentration StressN2(g) + 3H2(g) 2NH3(g)
If [NH3] is increased to 3.65 M, then Qc> Kc, so reverse reaction predominates.
At 720 oC, Kc = 2.37 x 10-3
0.683M 8.80M 1.05M (at eq.)
Concentration: Dilution
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HF(aq) + H2O H3O+(aq) + F-(aq)
What happens to the ionization of HF if the system is diluted?
This is just a special case of Le Chatelier’s principle.
Adding H2O shifts reaction right.
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Pressure & Volume Stress
P = (n/V) RT
P & V have no effect on solids & liquids, but for gases:
As P increases or V decreases the conc. of gases increase.
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P & V StressN2O4(g) 2NO2(g)
At equilib, if volume is decreased, product conc. Is affected more than reactant side:
> Kc (shift left)Qc = [NO2]o2
[N2O4]o
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P & V StressIn general, increased P or decreased V shifts reaction to side with lesser moles of gas.
Exception: if P is increased by adding an inert gas, it does not affect equilibrium.
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Y’all Be Stressin’Predict the direction of the reaction resulting from increased P (or decreased V):
PCl5(g) PCl3(g) + Cl2(g)
H2(g) + CO2(g) H2O(g) + CO(g)
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Temperature Stress
Unlike concentration, P, or V, temperature changes the value of Kc.
Increasing temperature will favor the reaction that is endothermic (“uses heat”).
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Temperature Stress
DH = 58 kJ
N2O4(g) 2NO2(g)colorless brown
T=-78oC T=-10oC T=+20oC
Temperature Stress
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58kJ + N2O4(g) 2NO2(g)
Raising temperature (adding heat) shifts equilibrium to use up the heat (Le Chatelier).
Reaction shifts right, producing more NO2. Value of Kc increases.
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Temperature Stress
CoCl4-2 + 6H2O
Co(H2O)6+2 + 4Cl-
Based on the following clip, predict whether this reaction is endo- or exothermic.
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Effect of CatalystCatalysts affect the rate of reaction, but NOT the equilibrium.
DH
Ea with catalyst is lower so rate increases. There is no effect on DH, so equilibrium doesn’t change.
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Le Chatelier: Try It !N2F4(g) 2NF2(g)
DH = 38.5 kJ
What happens if:
NF2 is addedV is increasedHe gas if addedT is decreased
Physical Equilibria
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Systems can also be in physical equilibria, where rate of forward and reverse processes are equal.
H2O(s) H2O(l) (at 0oC)
CO2(g) CO2(aq) (in close container)
KCl(s) KCl(aq) (in saturated soln)(demo)
Le Chatelier: Physical Change
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H2O(s) H2O(l)
What happens at equilibrium if:• heat is added?• pressure is increased?
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Solubility Equilibria
Even insoluble ionic compounds are very slightly soluble!
Application of equilibria to “insoluble” ionic compounds.
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Soluble CompoundsSoluble Compounds ExceptionsAlkali metals & NH4
+ KNOW!!!
NO3-,HCO3
-, ClO3- KNOW!!!
Halides Ag+ & Hg22+ & Pb2+
Sulfates (SO42-) Ag+ & Ca2+ & Sr2+
& Ba2+ & Pb2+
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Insoluble Compounds
Insolubles ExceptionsCO3
2- & PO43-
& CrO42- & S2-
Alkali metals & NH4+
KNOW!!!OH-
Alkali metals & Ba2+
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Solubility EquilibriaNow let’s get quantitative.
Ksp = 1.6E-10 = [Ag+][Cl-]
Why isn’t AgCl(s) included in Ksp?
AgCl(s) Ag+(aq) + Cl-(aq)
Ksp= 1.2E-26 = [Ca+2]3[PO4
-3]2
Ca3(PO4)2 3Ca+2 + 2PO4-3
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Solubility and KspFor a saturated solution:Molar solubility: Sol. in mol/LSolubility: Solubility in g/L
The solubility of CaSO4 is 0.67g/L. What is Ksp?
0.67 gL
x 1 mol136.2 g
= 4.9 x 10-3 M
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Ksp of CaSO4: ICE Table
Ksp = [Ca+2][SO4-2]
= (4.9 x 10-3)2
= 2.4 x 10-5
CaSO4 Ca+2 + SO4-2
I 0 0
C -4.9E-3 4.9E-3 4.9E-3E 4.9E-3 4.9E-3
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Solubility and KspGiven Ksp of Cu(OH)2 is
2.2E-20, what is its solubility?
(s = molar solubility of Cu(OH)2)
I 0 0C +s +2sE s 2s
Cu(OH)2 Cu+2 + 2OH-
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Solubility and KspKsp = 2.2x10-20 = [Cu+2][OH-]2
= (s)(2s)2
s = 1.8x10-7 M
Thus solubility in g/L is:
1.8E-7M x 97.57 g/mol = 1.8E-5 g/L
= 4s3
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Solubility and KspTable 16.3 shows the relationship between ‘s’ and Kspfor several different cases.
Ksp = s2 Ksp = 27s4
AgCl Al(OH)3
Ksp = 4s3 Ksp = 108s5
PbF2 Ca3(PO4)2
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Solubility and KspYour turn !
Calculate the solubility of Al(OH)3 given Ksp = 1.8E-33
Calculate the Ksp of Bi2S3 given its solubility is 1.0E-15 M.
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Solubility Equilibria & QAs with Keq problems, calculate reaction quotient, Q, for unsaturated or supersaturated solutions to determine the direction of reaction toward equilibrium.
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Will a Precipitate Form?Mix 200.mL of 1.0E-4 M Sr(NO3)2& 100.mL of 1.0E-4 M NaF.
Final solution volume is 0.300 L.
The possible precipitate is SrF2 (Ksp = 2.0E-10)
Do the ion concentrations of the mixture exceed Ksp?
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Will a Precipitate Form?
mol Sr+2 = 0.200 L x 1.0E-4 M= 2.0E-5 mol
mol F- = 0.100 L x 1.0E-4 M= 1.0E-5 mol
SrF2 Sr2+ + 2F-
Q = [Sr+2][F-]2
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Will a Precipitate Form?Q = [Sr+2][F-]
= 7.3 x 10-4
Since Q > Ksp of 2.0E-10, a precipitate will form.
2.0E-5mol0.300 L
x 1.0E-5mol0.300 L
=2
2
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Will a Precipitate Form?For this problem, what are [Sr+2] and [F-] at equilibrium?
SrF2 Sr2+ + 2F-
I 2.0E-5/.300 1.0E-5/.300= 6.67E-5 = 3.33E-5
limiting
detn.by Ksp
C(stoich) -1.67E-5 -3.33E-5
E 5.00E-5 ~0
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Will a Precipitate Form?Next plug into Ksp:
2.0E-10 = (5.00E-5)2
[F-]
Ksp = 2.0E-10 = [Sr+2][F-]2
detn.by Ksp
[F-] = 2.0E-3Mand [Sr+2] = 5.0E-5M
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Will a Precipitate Form?Try It !!
200.mL of 0.200 M NaOH is mixed with 1.00 L of 0.100 M CaCl2.
• Will a precipitate form?• What are [Ca+2] and [OH-]
at equilibrium?
For Ca(OH)2 Ksp = 8.0E-6
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Common Ion EffectE.g., AgCl is less soluble in aqueous AgNO3 than in water.
AgCl(s) Ag+(aq) + Cl-(aq)
As Ag+ increases, Cl- must decrease in accordance with Ksp. Thus less AgCl will dissolve.
Le Chatelier
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Common Ion EffectWhat is the solubility of AgCl in 0.0065 M AgNO3 ?
AgCl Ag+ + Cl-
I 0.0065 0C +s +sE 0.0065 +s +s~E 0.0065 +s
Let s = molar solubility of AgCl
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Common Ion EffectKsp = [Ag+][Cl-]
1.6 x 10-10 = (0.0065)(s)
s = 2.5 x 10-8 MThus the amount of dissolved AgCl is 2.5 x 10-8 M
or 3.6 x 10-6 g/L Note ‘s’ is small compared to 0.0065M so approximation was valid.
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Your turn !!
What is the molar solubilityof silver carbonate: •in water•in 0.0030 M sodium carbonate?
Ksp (Ag2CO3) = 8.1 x 10-12
Common Ion Effect
One More
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What is the Ksp of bismuth sulfide (Bi2S3) given its solubility is 8.8E-13 g/L?
(M = 514.2 g/mol)
What is the molar solubility of bismuth sulfide in a 0.020 M Na2S solution?
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The End
See Ksp summary in problem set.
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Warm-up
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For the reaction:2CO(g) + O2(g) 2CO2(g)Write the algebraic expressions for Kc and Kp
Warm-up
95
For the reaction at 170oC,2H2(g) + O2(g) 2H2O(g)
Calculate the ratio of Kp/Kc. Are these constants large (>>1) or small (<<1)?
Write Kc for PbCl2(s) Pb+2(aq) + 2Cl-(aq)
Warm-up
96
2NOCl(g) = 2NO(g) + Cl2(g)
1.0 mol NOCl was placed in a 2.0 L flask at 200oC. At equilibrium it was found that 40.% of NOCl had decomposed.
What is Kp?
Warm-up
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N2(g) + O2(g) 2NO(g)
If 1.0 mol each of N2, O2, and NO are placed in a 2.0 L vessel, what is the equilibrium concentration of NO?
(Kc = 3.4E-2)
Warm-up
98
The solubility of SrF2(s) in water is 5.8E-4M. Calculate Kc.
Warm-up
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Are they soluble in water?
•silver nitrate•calcium carbonate•copper(II) sulfide•barium hydroxide•calcium hydrogen carbonate
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Warm-up
Write the expression for Ksp of PbF2.
What is the Ksp of PbF2, given solubility is 0.54 g/L?
Warm-upWhat is molar solubility of PbF2 in water and in 0.020 M Pb(NO3)2?
(given Ksp = 4.1E-8)
101
Warm-up
102
Silver sulfide has Ksp = 6.0E-51.What is its molar solubility in water?
What is its molar solubility in 1.0E-7 sodium sulfide solution?
If 100.mL each of 4.0E-8M silver nitrate and 1.0E-7M sodium sulfide solutions are mixed, what is [Ag+] and [S-2]?