Reaction rate constant
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In chemical kinetics a reaction rate constant k or λ quantifies the speed of a chemical reaction.
For a chemical reaction where substance A and B are reacting to produce C, the reaction rate has the form:
![\frac{d[C]}{dt} = k(T)[A]^{m}[B]^{n}](../../../../math/9/3/d/93de22176437c3c242cfd0c636e624e7.png)
k(T) is the reaction rate constant that depends on temperature.
[X] is the concentration of substance X in moles per volume of solution assuming the reaction is taking place throughout the volume of the solution. (for a reaction taking place at a boundary it would denote something like moles of X per area.)
The exponents m and n are called orders and depend on the reaction mechanism. They can be determined experimentally.
In a single-step reaction can also be written as
![\frac{d[C]}{dt} = Ae^\frac{-E_a}{RT}[A]^m[B]^n](../../../../math/a/5/2/a52b16dcc215ece18e7369a0add900ff.png)
Ea is the activation energy and R is the Gas constant. Since at temperature T the molecules have energies according to a Boltzmann distribution, one can expect the proportion of collisions with energy greater than Ea to vary with e-Ea/RT. A is the pre-exponential factor or frequency factor.
The Arrhenius equation gives the quantitative basis of the relationship between the activation energy and the reaction rate at which a reaction proceeds.
The units of the rate coefficient depend on the global order of reaction:
- For order zero, the rate coefficient has units of mol L-1 s-1 or mol dm-3 s-1
- For order one, the rate coefficient has units of s-1
- For order two, the rate coefficient has units of L mol-1 s-1 or mol-1 dm3 s-1
- For order n, the rate coefficient has units of mol1-n Ln-1 s-1 or mol1-n dm3n-3 s-1
[edit] See also
http://www.chem.arizona.edu/~salzmanr/480a/480ants/chemkine.html
