ap chemistry chapter 12 kinetics. 2 chemical kinetics thermodynamics tells us if a reaction can...
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AP CHEMISTRY CHAPTER 12
KINETICS
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2
Chemical Kinetics
• Thermodynamics tells us if a reaction can occur• Kinetics tells us how quickly the reaction occurs
– some reactions that are thermodynamically feasible are kinetically so slow as to be imperceptible
OUSINSTANTANE
kJ -79=G OHOH+H
SLOW VERY
kJ396G COO C
o2982
-aq
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o298g2g2diamond
l
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Reaction Rate- change in concentration of a reactant or product per unit time.
[A] = concentration in mol/L
Rate = [A] t
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If the rate expression involves a reactant:
Rate = − [A] t
(negative because [ ] decreases) The above gives the average rate.
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2NO2 2NO + O2
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To get an instantaneous rate, we can compute the slope of a line tangent to the curve at that point.
Rate = −(slope of the tangent line)
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The rate of a reaction is not constant but changes with time because concentrations change with time.
We will only work with reaction rates that are “initial rates” (reverse reaction is negligible)
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Differential Rate Law or Rate Equation
For the reaction aA+bB + … gG +hH+ …
Rate = k[A]m[B]n… [A] & [B] represent molarities
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The exponents are positive or negative, integers or fractions.usually positive integers (small whole numbers) k = rate constant*value depends on reaction, temperature and presence of a catalyst*faster the reaction, larger the k value
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The exponents determine the order of the reactants. The sum of the exponents is the order of the reaction. R = k[A][B]2 is first order in A, second order in B and third order overall.
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The units of k can be calculated by reaction orders and units of concentration and rate. For example, if rate is in mol/Ls in the above rate law, we can find the units for k as follows:Rate = k so k = mol [A][B]2 L s mol mol2
L L2
This simplifies to: k = L2
mol2.s
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The “shortcut” to determining units of k is as follows:
k = Lx/(molx.time). The value of x will be one less than the order of the reaction. If the reaction is 3rd order,
k = L2/mol2.time. If the reaction is 2nd order, k = L/mol.time If the reaction is 1st order, k = 1/time
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Determining Differential Rate Laws from Experimental Data
If doubling the initial [ ] of a reactant causes the initial rate to double, the reaction is first order in that reactant.
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If doubling the initial [ ] of a reactant causes the initial rate to quadruple, the reaction is second order in that reactant.
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If doubling the initial [ ] of a reactant does not change the initial rate, the reaction is zero order in that reactant and that reactant is removed from the rate law.
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2A + B 2CEx. [A] [B] Rate1 0.1 0.2 0.102 0.1 0.4 0.203 0.2 0.4 0.80Determine the rate law:
Rate = k[A]x[B]y
Rate = k[A]x[B]1
Rate = k[A]2[B]
1 2 2
Because 21=2, B is 1st order
Because 22 =4, A is 2nd order
1 42
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A B[A] Rate
0.05 3 x 10-4
0.10 1.2 x 10-3
0.20 4.8 x 10-3
Determine the rate law: Rate = k[A]x
Rate = k[A]2
2
2 4
4
Because 22=4, A is 2nd order
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A + B CExp [A] [B] Rate1 0.10 0.20 1.0×105 2 0.20 0.20 1.0×105
3 0.20 0.40 2.0×105
Determine the rate law:Rate = k[A]x[B]y
Rate = k[A]0[B]y
Rate = k [B]
1
2
1
1
2
2
Because 21=2, B is 1st order
Because 20=1, A is 0 order
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A + 2B 2CEx. [A] [B] Rate
1 0.1 0.1 0.10
2 0.2 0.1 0.203 0.4 0.2 0.40
Determine the rate law:
Rate = k[A]x[B]y
Rate = k[A]1[B]y
Rate = k[A]1[B]0
Rate = k[A]
2 1 2
2 2 2
Because 21=2, A is 1st order
No control in this example. Because doubling A causes the rate to double, doubling B must have had no effect. B is zero order.
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NH4+ + NO2
N2 + 2H2
Exp [NH4+] [NO2
] Rate(mol/Lmin) 1 0.100 0.005 1.35 × 107
2 0.100 0.010 2.70 × 107
3 0.200 0.010 5.40 × 107
Determine the rate law: Determine the value of k and its units:Rate = k[NH4
+]x[NO2]y
Rate = k[NH4+]x[NO2
]1
Rate = k[NH4+] [NO2
]
1.35×107mol/Lmin = k(0.100mol/L)(0.005mol/L)
k = 2.7 ×104 L/mol.min
Because 21=2, NH4+ is 1st order
orerBecause 21=2, NO2- is 1st order
2
1
1
2 2
2
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Experiment [A] [B] Initial Ratemol L-1s-1
1 10.1 2.01 5.00
2 19.8 3.99 80.0
3 40.2 2.00 80.0
Determine the rate law:Rate = k[A]x[B]y
42=16 so [A] is 2nd order
14 16
Rate = k[A]2[B]y
2 2 16
Because A is 2nd order, doubling A will cause the rate to quadruple. When both A and B were doubled, the rate was 16 times greater. This means that B is also 2nd order.Rate = k[A]2[B]2
Determine the value of k and its units.5.00 mol L-1s-1 = k(10.1mol/L)2(2.01mol/L)2
k = 0.0121 L3mol-3s-1
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Integrated Rate Law-expresses how the concentration of the reactant depends on time-instead of changing initial concentrations and using multiple experiments, one experiment is done and concentration changes over time are measured.
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1st order integrated rate law
kt
or
kt
0
t
t
0
A
Aln
A
Aln
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A plot of ln[A] vs t always gives a straight line for a 1st order reaction. The slope = -k
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Ex. At 400oC, the 1st order conversion of cyclopropane into propylene has a rate constant of 1.16 × 10-6s-1. If the initial concentration of cyclopropane is 1.00 × 10-2 mol/L at 400oC, what will its concentration be 24.0 hrs after the reaction begins?
24 hrs 3600s = 86400s
1 hrln[A]t = −kt ln [A]t = −1.16×10−6(86400)
[A]0 1.00×10−2
[A]t = 9.05×10−3
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Radioactive decay is first order. Half-life (t1/2) is the length of time required for the concentration of a reactant to decrease to half of its initial value. t1/2 = 0.693/k
Where does 0.693 come from?
It is the natural log of 2.
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A fast reaction with a short t1/2 has a large k.
A slow reaction with a long t1/2 has a small k.
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A Plot of (N2O5) Versus Time for the Decomposition Reaction of N2O5
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Example: The decomposition of SO2Cl and Cl2 is a first order reaction with k = 2.2×10−5s−1 at 320oC. Determine the half-life of this reaction.
t1/2 = 0.693/k
t1/2 = 0.693/(2.2×10−5s−1)
t1/2 = 31500 s or 525 min or 8.75 hours
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Example: The decomposition of N2O5 dissolved in CCl4 is a first order reaction. The chemical change is: 2N2O5 4NO2 + O2
At 45oC the reaction was begun with an initial N2O5 concentration of 1.00 mol/L. After 3.00 hours the N2O5 concentration had decreased to 1.21×10−3 mol/L. What is the half-life of N2O5 expressed in minutes at 45oC?
ln [A]t = −kt
[A]0
ln 1.21 × 103 = −k(180 min) 1.00
k = 0.0373 min1 t1/2 = 0.693/k
t1/2 = 0.693/0.0373 min1 = 18.6 min
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Second order integrated rate law Rate = k[A]2
1 - 1 = kt [A]t [A]0
A plot of 1/[A]t versus t produces a straight line with slope k.
Differential rate law
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(a) A Plot of In(C4H6) Versus t (b) A Plot of 1/(C4H6) Versus t
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Zero Order Rate = k
[A]t [A]o = kt
A plot of [A] versus t produces a straight line with slope -k.
Differential rate lawThis equation is not found on the AP formula sheet and will not have to be calculated. Make sure that you understand the graphing.
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A Plot of (A) Versus t for a Zero-Order Reaction
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An easy way to keep the graphs straight is to remember CLR=0,1,2
C=concentration, L = ln concentration, R=reciprical of concentration
If the concentration vs time is straight, it is C (0 order).If natural log of concentration vs time is straight it is L=1st order.If reciprical of concentration vs time is straight it is R=2nd order.
CLR0 1 2
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What order is this reaction?
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What order is this reaction?
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Reaction Mechanisms
intermediate - a species that is neither a product nor a reactant in the overall equation-is used up in a subsequent step
elementary step- a reaction whose rate law can be written from its molecularity (balanced equation)
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molecularity- the number of species that must collide to produce the reaction represented by the elementary step.Unimolecular step- a reaction step involving only one moleculeBimolecular step- a reaction step involving the collision of two molecules (Rate law always 2nd order)
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Rate-determining step -slowest step
Lucy clipElementary Reaction -agrees with the balanced equation
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Reaction mechanisms must:
1. Add up to the overall balanced equation.
2. Agree with the rate law
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We can’t prove a mechanism absolutely. We can only come up with a possible mechanism.
Look at this video where we can see that the reaction is occuring through a series of steps (mechanism). This is called a “clock reaction”.clock reaction
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The iodine clock reaction uses a solution of iodate ion to which an acidified solution of sodium bisulfite is added.Iodide ion is generated by the following slow reaction between the iodate and bisulfite:IO3
− (aq) + 3HSO3− (aq) → I− (aq) + 3HSO4
−(aq) This is the rate determining step. The iodate in excess will oxidize the iodide generated above to form iodine:IO3
− (aq) + 5I− (aq) + 6H+ (aq) → 3I2 + 3H2O (l) However, the iodine is reduced immediately back to iodide by the bisulfite:I2 (aq) + HSO3
− (aq) + H2O (l) → 2I− (aq) + HSO4−(aq) + 2H+ (aq)
When the bisulfite is fully consumed, the iodine will survive (i.e., no reduction by the bisulfite) to form the dark blue complex with starch.
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Ex. Elementary Rxn : NO + N2O NO2+ N2 Rate Law: R = k[NO][N2O]
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Ex. The reaction 2NO2(g) + F2(g) 2NO2F is thought to proceed via the following two-step mechanism: NO2 + F2 NO2F + F slow F + NO2 NO2F fast
Rate law for the reaction:
Rate = k[NO2][F2]
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When an intermediate is a reactant in the rate-determining step, the derivation of the rate law is more difficult.
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Ex. NO2 + CO NO + CO2
k1
Mechanism: NO2 + NO2 NO3 + NO Both fast w/ k1 equal rates
NO3 + CO CO2 + NO2 slow
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Ex. NO2 + CO NO + CO2
k1
Mechanism: NO2 + NO2 NO3 + NO Both fast w/ k-1 equal rates
NO3 + CO CO2 + NO2 slow
Slow step determines rate law (rate-determining step)Rate law: R = k[NO3][CO] But, NO3 was an intermediate. We must come up with something equal to NO3 to substitute. k[NO2]2 = k[NO3][NO] [NO3] = [NO2]2
[NO] R = k [NO2]2[CO] [NO]
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Ex. Cl2 + CHCl3 HCl + CCl4
Mechanism k1
Cl2 2Cl fast k-1
Cl + CHCl3 HCl + CCl3 slow Cl + CCl3 CCl4 fast
Rate Law:
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Ex. Cl2 + CHCl3 HCl + CCl4
Mechanism k1
Cl2 2Cl fast k-1
Cl + CHCl3 HCl + CCl3 slow Cl + CCl3 CCl4 fast
Rate Law: R = k[Cl][CHCl3] Cl is an intermediate k[Cl2] = k[Cl]2
[Cl2]1/2 = [Cl] R = k[Cl2]1/2[CHCl3]
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Increasing temperature increases reaction speed. Rate and rate constants often double for every 10o increase in temperature. (Rule of thumb)
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Plot Showing the Number of Collisions with a Particular Energy at T1 and T2, where T2>T1
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Molecules must collide to react. Only a small portion of collisions produce a reaction.
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Several Possible Orientations for a Collision Between Two BrNO Molecules
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Activation energy (EA)- energy that must be overcome to produce a chemical reaction.
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Rate of reaction depends on EA, not E.
E has no effect on rate of reaction. The higher the EA, the slower the reaction at a given temperature.
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Molecules and collisions have varying energies. As temperature increases, more collisions will have sufficient energy to overcome the activation energy. As temperature doubles, the fraction of effective collisions increases exponentially.Reaction rate is smaller than would be predicted from the number of collisions having sufficient energy to react. This is because of molecular orientations.
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2 factors:
1. sufficient energy2. proper orientation
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Arrhenius Equation--can be used to calculate EA
ln k = ln A - EA k = rate constant RT R = 8.314 J/K mol T = Kelvin temp A = frequency factor (constant as temperature changes) EA = activation energyAs EA increases, k decreases.
This calculation is not required on the AP exam.
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The Arrhenius equation describes a line. We can plot 1/T vs ln k and get a straight line whose slope is equal to -EA/R.
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Plot of In(k) Versus 1/T for the Reaction 2N2O5(g) ® 4NO2(g) + O2(g)
Slope = -EA/R
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A variation of the Arrhenius equation can be used to calculate EA or to find k at another temperature if EA is known: ln k1 = EA 1 - 1 k2 R T2 T1
This calculation is not required on the AP exam.
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Catalysis
Catalysts, such as enzymes in a biological system or the surfaces in an automobile's catalytic converter, increase the rate of a chemical reaction.
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catalyst- substance that speeds up a reaction without being consumed.-produces a new reaction pathway with a lower activation energy-A catalyst lowers the EA for both the forward and reverse reaction. Some catalysts change the mechanism of the reaction greatly and others simply change the rate-determining step.
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enzymes- biological catalysts
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homogeneous catalyst- present in the same phase as the reacting molecules (usually liquid phase)
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heterogeneous catalyst- exists in a different phase-usually involves gaseous reactants being adsorbed on the surface of a solid catalyst (such as a car’s catalytic converter)
Either a new reaction intermediate is formed or the probability of successful collisions is increased. This is sometimes called a surface catalyst.
Absorption involves penetration.
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Heterogeneous Catalysis of the Hydrogenation of Ethylene
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Catalytic Converter
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How does the mechanism for the catalyzed reaction differ from the mechanism of the
uncatalyzed reaction?