reaction energy and reaction kinetics
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Reaction Energy and Reaction
Kinetics
Reaction Rate
Objectives1. Define the rate of reaction and describe how it can
be determined.2. List and explain factors that affect the rate of
reaction.3. Define a catalyst and describe how it can affect the
rate of reaction.
Reaction Rate
Reaction rate – change in concentration of reactants per unit time as a reaction occurs.
Chemical kinetics – study of reaction rates and reaction mechanisms.
Rate-Influencing FactorsNature of the Reactants
H2(g) + Cl2(g) 2 HCl(g) (fast)3 H2(g) + N2(g) 2 NH3(g) (slow)
4 Na(s) + O2(g) 2 Na2O(s) (fast)4 Fe(s) + 3 O2(g) 2 Fe2O3(s) (slow)
Rate-Influencing Factors
Surface Area
• Heterogeneous reactions – reactions with reactants in two different phases
• Heterogeneous reactions depend on contact between the two phases.
• Increases in surface area result in the increase in the rate of heterogeneous reactions.
Rate-Influencing FactorsTemperature
An increase in temperature causes:• An increase in collision energy• An increase in collision frequency
Both result in increased reaction rates
• In general, a 10oC increase in temperature causes the reaction rate to double.
Rate-Influencing factorsConcentration
• Increasing the concentration of the reactants may cause an increase in the rate of reaction for homogeneous reactions.
Rate-Influencing Factors
Presence of a Catalyst
• Catalysts lower the activation energy for a reaction and, thus, increase the reaction rate.
• Homogeneous vs. Heterogeneous catalysts – same or different phase as reactants.
Rate Laws for ReactionsObjectives:1. Explain the rate law for a chemical reaction.2. Determine the rate law for a particular reaction given
appropriate kinetics data.3. Discuss the relationship between the rate law and the
reaction mechanism.
Rate LawRate Law – an equation that relates reaction rate and
concentration of reactants
R = k[A]n[B]m…
R = reaction ratek = rate constant that depends on temperaturen,m = must be determined experimentally
Rate Laws for ReactionsExample:
2 H2(g) + 2 NO(g) N2(g) +2 H2O(g)
• Doubling the amount of H2 , while keeping the amount of NO constant, causes the reaction rate to double. So…
R [H2]• When the amount of NO is doubled, while keeping the
amount of H2 constant, causes the reaction rate to increase fourfold. So…
R [NO]2
Overall rate law: R = k[H2][NO]2
Rate Laws for Reactions
For reactions that occur in a single step:
A + B 2C
R = k[A][B]
For the reverse reaction…. 2C A + B
R = k[C]2
Rate Laws for ReactionsFor multi-step reactions, the rate law depends on the
rate limiting step.
Example:NO2(g) + CO(g) NO(g) + CO2(g)
Step 1: NO2 + NO2 NO3 + NO (slow)Step 2: NO3 + CO NO2 + CO2 (fast)
Rate Law: R = k[NO2]2
Sample Problems1. The rate law of a reaction is found to be R=k[X]3. By
what factor does the rate increase if the concentration of X is tripled?
The rate will increase by a factor of 27.2. The rate of reaction involving two reactants, X and Z, is
found to double when the concentration of X is doubled and to quadruple when the concentration of Z is doubled. Write the rate law for this reaction.
R = k[X][Z]2
3. The rate law for a single-step reaction that forms one product, C, is R = k[A][B]2. Write the balanced reaction of A and B to form C.
A + 2B C
Sample Problem• A particular reaction is found to have the following
rate law: R = k[A][B]2
How is the rate affected by each of the following changes?
a. The initial concentration of A is cut in half.b. The initial concentration of B is tripled.c. The concentration of A is doubled, but the
concentration of B is cut in half.d. A catalyst is added.
Sample ProblemA chemical reaction is expressed by the balanced chemical
equation, A + 2B C. Using the data below, answer the following:
a. Determine the rate law for the reactionb. Calculate the value of the specific rate constant.c. If the initial concentrations of both A and B are 0.30 M, at
what initial rate is C formed?
Experiment # Initial [A] Initial [B] Initial rate of formation of C
1 0.20 M 0.20 M 2.0x10-4M/min2 0.20 M 0.40 M 8.0x10-4M/min3 O.40 M 0.40 M 1.6x10-3M/min
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