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tends to increase with Concentration - a phenomenon explained by Collision Theory .]] RATE OF REACTION See Also: reaction rate Kinetics deals with the experimental determination of of the reactants, the Concentrations of the reactants, the Temperature at which the reaction occurs, and whether or not any Catalysts are present in the reaction. FACTORS AFFECTING REACTION RATE Nature of the Reactants Depending upon what substances are reacting, the time varies. Acid reactions, the formation of Salts , and Ion Exchange are fast reactions.When covalent bond formation takes place between the molecules and when large molecules are formed, the reactions tend to be very slow. Physical State The Physical State ( Solid , Liquid , or Gas ) of a reactant is also an important factor of the rate of change. When reactants are in the same Phase , as in Aqueous Solution , thermal motion brings them into contact. However, when they are in different phases, the reaction is limited to the interface between the reactants. Reaction can only occur at their area of contact, in the case of a liquid and a gas, at the surface of the liquid. Vigorous shaking and stirring may be needed to bring the reaction to completion. This means that the more finely divided a solid or liquid reactant, the greater its Surface Area per unit Volume , and the more contact it makes with the other reactant, thus the faster the reaction. To make an analogy, for example, when you start a fire, first you use wood chips and small branches - you don't start with big logs right away. In organic chemistry On Water Reaction s are the exception to the rule that homogeneous reactions take place faster than heterogeneous reactions. Concentration Concentration plays an important role in reactions. According to the Collision Theory of chemical reactions, this is due to the fact that molecules must collide in order to react together. As the concentration of the reactants increases, the Frequency of the molecules colliding increases, striking each other faster by being in closer contact at any given point in time. Imagine two reactants being in a closed container. All the molecules contained within are colliding constantly. By increasing the amount of one or more of the reactants you cause these collisions to happen more often, increasing the reaction rate (Figure 1.1). Temperature Temperature usually has a major effect on the speed of a reaction. Molecules at a higher temperature have more Thermal Energy . When reactants (reactant + reactant → product) in a chemical reaction are heated, the more energetic atoms or molecules have a greater probability to collide with one another. Thus, more collisions occur at a higher temperature, making a product in a chemical reaction. More importantly however, is the fact that at higher temperatures molecules have more vibrational energy, that is, atoms are vibrating much more violently, so raising the temperature not only increases the number of collisions but also collisions that can result in rearrangement of atoms within the reactant molecules. For example, a Refrigerator slows down the speed of the rate of reaction since it cools the molecules. On the other hand, an Oven gives heat (energy) to the molecules which in turn speeds up the rate of reaction, cooking the food faster. Chemical kinetics can also be determined using a Temperature Jump . This involves using a sharp rise in temperature and observing the relaxation rate of an equilibrium process. Catalysts A Catalyst is a substance that accelerates the rate of a chemical reaction but remains Chemically unchanged afterwards. The catalyst increases rate reaction by providing a different Reaction Mechanism to occur with a lower Activation Energy . In Autocatalysis a reaction product is itself a catalyst for that reaction leading to Positive Feedback . Proteins that act as catalysts in biochemical reactions are called Enzyme s. Michaelis-Menten Kinetics describe the Rate Of Enzyme Mediated Reactions . In certain organic molecules specific substituents can have an influence on reaction rate in Neighboring Group Participation . Agitating or mixing a solution will also accelerate the rate of a chemical reaction, as this gives the particles greater kinetic energy, increasing the number of collisions between reactants and therefore the possibility of successful collisions. Increasing the pressure in a gaseous reaction will increase the number of collisions between reactants, increasing the rate of reaction. This is because the Activity of a gas is directly proportional to the partial pressure of the gas. This is similar to the effect of increasing the concentration of a solution. EQUILIBRIA While chemical kinetics determines the rate of the chemical reaction, Chemical Equilibrium determines the extent to which the reaction will occur. In a Reversible Reaction , chemical equilibrium is reached when the reaction rate of the forward reaction is equal to the rate of the reverse reaction and the concentrations of the Reactant s and Products no longer change. This is demonstrated in the classical example of the Haber-Bosch Process . Le Chatelier's Principle can then be used to predict the effect of change in concentration, temperature or pressure on the position of that chemical equilibrium. Chemical Clock reactions such as the Belousov-Zhabotinsky Reaction demonstrate that component concentrations can oscillate for a long time before finally reaching equilibrium. FREE ENERGY In general terms, the Free Energy of a reaction determines if a chemical reaction will take place, the kinetics will then tell how fast the reaction is. A reaction can be very Exothermic but will not happen in practice if the reaction is too slow. If a reactant can react to form two different products, the thermodynamically most stable product will generally form except in special circumstances when the reaction is said to be under Kinetic Reaction Control . The Curtin-Hammett Principle applies when determining the product ratio for two reactants interconverting rapidly each going to a different product. It is possible to make predictions about reaction rate constants for a reaction from Free-energy Relationship s. The Kinetic Isotope Effect is a difference in the rate of a chemical reaction when an atom in one of the reactants is replaced by one of its Isotope s. Chemical kinetics provide information on Residence Time and Heat Transfer in a Chemical Reactor in Chemical Engineering and the Molar Mass Distribution in Polymer Chemistry . SEE ALSO REFERENCES
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