Question

write notes on the

method of determining order of reaction​

Answer 1

The order of reaction can be defined as the power dependence of rate on the concentration of all reactants. For example, the rate of a first-order reaction is dependent solely on the concentration of one species in the reaction. Some characteristics of the reaction order for a chemical reaction are listed below.Reaction order represents the number of species whose concentration directly affects the rate of reaction.

The order of reaction can be defined as the power dependence of rate on the concentration of all reactants. For example, the rate of a first-order reaction is dependent solely on the concentration of one species in the reaction. Some characteristics of the reaction order for a chemical reaction are listed below.Reaction order represents the number of species whose concentration directly affects the rate of reaction.It can be obtained by adding all the exponents of the concentration terms in the rate expression.

The order of reaction can be defined as the power dependence of rate on the concentration of all reactants. For example, the rate of a first-order reaction is dependent solely on the concentration of one species in the reaction. Some characteristics of the reaction order for a chemical reaction are listed below.Reaction order represents the number of species whose concentration directly affects the rate of reaction.It can be obtained by adding all the exponents of the concentration terms in the rate expression.The order of reaction does not depend on the stoichiometric coefficients corresponding to each species in the balanced reaction.

The order of reaction can be defined as the power dependence of rate on the concentration of all reactants. For example, the rate of a first-order reaction is dependent solely on the concentration of one species in the reaction. Some characteristics of the reaction order for a chemical reaction are listed below.Reaction order represents the number of species whose concentration directly affects the rate of reaction.It can be obtained by adding all the exponents of the concentration terms in the rate expression.The order of reaction does not depend on the stoichiometric coefficients corresponding to each species in the balanced reaction.The reaction order of a chemical reaction is always defined with the help of reactant concentrations and not with product concentrations.

The order of reaction can be defined as the power dependence of rate on the concentration of all reactants. For example, the rate of a first-order reaction is dependent solely on the concentration of one species in the reaction. Some characteristics of the reaction order for a chemical reaction are listed below.Reaction order represents the number of species whose concentration directly affects the rate of reaction.It can be obtained by adding all the exponents of the concentration terms in the rate expression.The order of reaction does not depend on the stoichiometric coefficients corresponding to each species in the balanced reaction.The reaction order of a chemical reaction is always defined with the help of reactant concentrations and not with product concentrations.The value of the order of reaction can be in the form of an integer or a fraction. It can even have a value of zero.

The order of reaction can be defined as the power dependence of rate on the concentration of all reactants. For example, the rate of a first-order reaction is dependent solely on the concentration of one species in the reaction. Some characteristics of the reaction order for a chemical reaction are listed below.Reaction order represents the number of species whose concentration directly affects the rate of reaction.It can be obtained by adding all the exponents of the concentration terms in the rate expression.The order of reaction does not depend on the stoichiometric coefficients corresponding to each species in the balanced reaction.The reaction order of a chemical reaction is always defined with the help of reactant concentrations and not with product concentrations.The value of the order of reaction can be in the form of an integer or a fraction. It can even have a value of zero.In order to determine the reaction order, the power-law form of the rate equation is generally used. The expression of this form of the rate law is given by r = k[A]x[B]y.