chemical kinetics chapter 15
DESCRIPTION
Chemical Kinetics Chapter 15. H 2 O 2 decomposition in an insect. H 2 O 2 decomposition catalyzed by MnO 2. REACTION RATES. RR = D [P ] = - D [R ] D t D t. P = products R = reactants. Relative Rates. Reactant. 2A g 4B + C. - PowerPoint PPT PresentationTRANSCRIPT
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Chemical KineticsChemical KineticsChapter 15Chapter 15
H2O2 decomposition in an insect
H2O2 decomposition catalyzed by MnO2
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REACTION RATES
RR = [P ] = - [R ] t t
P =products R = reactants
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Relative Rates
Reactant
2A 4B + C
- [A ] = [B ] = [C ] 2 t 4 t t
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Rate Calculations
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Collision Theory
Collisions
Collisions
EnergyCollisions
Energy
Orientation
NO
NO
YES
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Factors Affecting RXN Rates
• *Nature of Reactants
• Temperature• Concentration• Surface Area/ Physical
state• Catalysts
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8MECHANISMSA Microscopic View of Reactions
Sections 15.5 and 15.6
MECHANISMSA Microscopic View of Reactions
Sections 15.5 and 15.6
Mechanism: how reactants are converted to products at the molecular level.RATE LAW ----> MECHANISM
experiment ----> theory
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REACTION ORDERREACTION ORDERIn general, forIn general, for
a a AA + b + b BB --> x --> x X X with a catalyst “C”with a catalyst “C”
Rate = k [A]Rate = k [A]mm[B][B]nn[C][C]pp
The exponents The exponents m, n, and p m, n, and p •• are the reaction order
• can be 0, 1, 2 or fractions
•• must be determined by must be determined by experiment!experiment!
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10More on MechanismsMore on MechanismsMore on MechanismsMore on Mechanisms
Reaction of cis-butene --> trans-
butene is UNIMOLECULAR - only one reactant is
involved.
BIMOLECULAR — two different
molecules must collide
--> products
A bimolecular reaction
Exo- or endothermic?
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11Collision TheoryCollision TheoryCollision TheoryCollision Theory
Reactions require
(a) activation energy and
(b) correct geometry.
O3(g) + NO(g) ---> O2(g) + NO2(g)
2. Activation energy 2. Activation energy and geometryand geometry
1. Activation energy 1. Activation energy
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12MechanismsMechanisms
O3 + NO reaction occurs in a single ELEMENTARY step. Most others involve a
sequence of elementary steps.
Adding elementary steps gives NET reaction.
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13MechanismsMechanisms
Most rxns. involve a sequence of elementary steps.
2 I- + H2O2 + 2 H+ ---> I2 + 2 H2O
Rate = k [I-] [H2O2]
NOTE
1. Rate law comes from experiment
2. Order and stoichiometric coefficients not necessarily the same!
3. Rate law reflects all chemistry down to and including the slowest step in multistep
reaction.
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14MechanismsMechanisms
Proposed Mechanism
Step 1 — slow HOOH + I- --> HOI + OH-
Step 2 — fast HOI + I- --> I2 + OH-
Step 3 — fast 2 OH- + 2 H+ --> 2 H2O
Rate of the reaction controlled by slow step —
RATE DETERMINING STEP, rds.
Rate can be no faster than rds!
Proposed Mechanism
Step 1 — slow HOOH + I- --> HOI + OH-
Step 2 — fast HOI + I- --> I2 + OH-
Step 3 — fast 2 OH- + 2 H+ --> 2 H2O
Rate of the reaction controlled by slow step —
RATE DETERMINING STEP, rds.
Rate can be no faster than rds!
Most rxns. involve a sequence of elementary steps. 2 I- + H2O2 + 2 H+ ---> I2 + 2 H2O
Rate = k [I-] [H2O2]
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15MechanismsMechanisms
Elementary Step 1 is bimolecular and involves I- and HOOH. Therefore, this predicts the rate
law should be
Rate [I-] [H2O2] — as observed!!
The species HOI and OH- are reaction intermediates.
Elementary Step 1 is bimolecular and involves I- and HOOH. Therefore, this predicts the rate
law should be
Rate [I-] [H2O2] — as observed!!
The species HOI and OH- are reaction intermediates.
2 I- + H2O2 + 2 H+ ---> I2 + 2 H2O
Rate = k [I-] [H2O2]
Step 1 — slow HOOH + I- --> HOI + OH-
Step 2 — fast HOI + I- --> I2 + OH-
Step 3 — fast 2 OH- + 2 H+ --> 2 H2O
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Simulation:” Mechanisms
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17Rate Laws Rate Laws and and MechanismsMechanisms
NO2 + CO reaction:
Rate = k[NO2]2
Single step
Two possible mechanisms Two steps: step 1
Two steps: step 2
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Ozone Decomposition Ozone Decomposition MechanismMechanism
Proposed mechanismProposed mechanism
Step 1: fast, equilibriumStep 1: fast, equilibrium
O3 (g) <--> O2 (g) + O (g)
Step 2: slowO3 (g) + O (g) ---> 2 O2 (g)
2 O2 O33 (g) ---> 3 O (g) ---> 3 O22 (g) (g)
Rate = k [O3]2
[O2]
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Sovled problems: pg 144
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