Reaction rate
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The reaction rate for a reactant or product in a particular reaction is defined as the amount (in moles or mass units) per unit time per unit volume that is formed or removed.
Knowledge of these rates is essential in chemical engineering and environmental engineering.
For the reaction
<math>aA + bB \rightarrow\; cC + dD</math>
the formula reaction rate <math>r</math> is the rate at which <math>a</math> mol of substance <math>A</math> reacts according to the reaction above. If we assume that 1) the system is closed, 2) the reaction above is the only reaction and 3) there is no significant build-up of intermediates, we can relate the reaction rate <math>r</math> to changes in concentrations as
<math>r=-\frac{1}{a}\frac{d[A]}{dt}=-\frac{1}{b}\frac{d[B]}{dt}=\frac{1}{c}\frac{d[C]}{dt}=\frac{1}{d}\frac{d[D]}{dt}</math>
where <math>[A]</math> and <math>[B]</math> represent the concentration of the reactants. If, however, one or more of these assumptions are not valid we need to use a Mass balance in order to relate <math>r</math> to changes in concentration. Evidently, the formula reaction rate relates to the reaction rate for individual substances. If the three assumptions above are valid, we simply get
<math>r=-ar_A=-br_B=-cr_C=-dr_D</math>
If we have more than one reaction, e.g. one reaction which consumes <math>A</math> and one which produces <math>A</math>, we may write the total reaction rate for <math>A</math> as the sum of contributions from the two different reactions:
<math> r_A=a_1r_1-a_2r_2</math>
Reaction rate is often expressed in the units mol/Ls. With information of reaction rates a rate law for this reaction can be established.
There are several factors that affect the rate of reaction:
- Temperature: Conducting a reaction at a higher temperature puts more energy into the system and increases the reaction rate. The influence of temperature is described by the Arrhenius equation, whose result is factored into the equation by k. As a rule of thumb, the reaction rate doubles for every 10 degrees Celsius increase in temperature.
- Concentration: As reactant concentration increases, the frequency of collision increases and so therefore does the frequency of collisions having sufficient energy to cause reaction. i done this for an experiment in skool and it is wicked i think u should try it too measure the amount of gas that is produced
- Pressure: The rate of gaseous reactions usually increases with an increase in pressure. Increase in pressure in fact is equivalent to an increase in concentration of the gas.
- Light: Light is a form of energy. It may affect the rate or even course of a reaction. For example when methane reacts with chlorine in the dark, the reaction rate is very low. It can be sped up when the mixture is put under diffused light. In bright sunlight, the reaction is explosive.
- Order: Clearly the order of the reaction has a major effect on its rate. The order of a reaction is found experimentally, and, for most basic reactions, is an integer value.
- A catalyst: The presence of a catalyst increases the reaction rate in both the forward and reverse reactions by providing an alternative pathway with a lower activation energy.
- The nature of the reactants: If a reaction involves the breaking and reforming of bonds (complex) compared to just the forming of bonds (simple) then it generally takes longer. The reactants position in the reactivity series also affects reaction rate.
- Surface Area: In a heterogeneous system as the surface area increases the rate of reaction increases. The larger the surface area compared to the volume, the faster a reaction can take place, as more simultaneous reactions can occur.et:Reaktsiooni kiirus