derive the integrated rate law of first order reactions?
Answers
Answer:
First-Order Reactions
A first-order reaction depends on the concentration of one reactant, and the rate law is: r=−dAdt=k[A] r = − dA dt = k [ A ] .
Explanation:
The Rate Law
The rate law for a chemical reaction relates the reaction rate with the concentrations or partial pressures of the reactants.
The rate law for a chemical reaction is an equation that relates the reaction rate with the concentrations or partial pressures of the reactants. For the general reaction
aA+bB→C with no intermediate steps in its reaction mechanism, meaning that it is an elementary reaction, the rate law is given by:
First order reaction: In first order reaction, the rate of reaction depends upon the first power of concentration of reactants. Natural and artificial radioactive decay of unstable nuclei are examples of first order reaction. A general equation for a first order reaction with rate constant k