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CHEMISTRY EXPLAINED: RATE OF REACTION

      RATE OF REACTION (KADAR TINDAK BALAS)

Explaning the rate of reaction

                When we talk about rate of reaction, it is always depending on how fast the reaction takes place in an experiment. It can be either fast reaction, or slow reaction, as it is a measurement of speed. 

Scientifically, the rate of reaction is defined by change in amount of reactant or product against time. For instance, when a gas is produced during a reaction, so rate of reaction is the change in volume of the gas produced against time. Another example is when the mass of reactant is decreased, thus the rate of reaction is the change in mass of the reactant against time.

                Rate of reaction is inversely proportional to time of reaction (1/time) as the smaller the value of time (shorter time), the greater the value of 1/time. Because of that, when a reaction takes shorter time to complete, therefore the rate of reaction is high. On the other hand, when a reaction takes longer time to complete, therefore the rate of reaction is low.

Rate of reaction=1/(time of reaction)

                Examples of high rate of reactions or fast reactions are burning of magnesium ribbon with oxygen, precipitation of lead (II) chloride by mixing sodium chloride solution and lead (II) nitrate solution; and production of carbon dioxide sodium carbonate (marble) reacts vigorously with dilute hydrochloric acid. Meanwhile, examples of low rate of reactions or slow reactions such as photosynthesis process, corrosion of metals and burning of copper with oxygen. 

Measuring the rate of reaction

                The rate of reaction can be measured by looking at observable changes during the reaction takes place such as;

a)   Reduction in mass of reactant

b)      Increase in mass of product

c)   Production of precipitate

d)      Release of gas

In all reactions, the quantity of reactants will decrease while the quantity of products will increase. Thus, the rate of reaction can be measured as follows;

Rate of reaction=(reduction of reactants quantity)/time

or

Rate of reaction=(increase of products quantity)/time

                As an example, a reaction between calcium carbonate with hydrochloric acid will produce calcium chloride, water and carbon dioxide.

CaCO₃ + 2HCl → CaCl₂ + H₂O + CO₂

                From that chemical reaction, the rate of reaction can be determined by following methods

Rate of reaction=(reduction of calcium carbonate mass)/time

or

Rate of reaction=(increase of carbon dioxide volume)/time

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