To balance chemical equations

To simplify the calculation of equilibrium constants

To determine the rate law for reactions with a fast initial step

To identify the products of a chemical reaction

It is a product

It is an intermediate

It is a reactant

It is a catalyst

Because it is the fastest step

Because it produces the most products

Because it involves the most reactants

Because it is the slowest step

Because intermediates are unstable

Because intermediates are not present in the initial reactants

Because intermediates do not affect the rate

Because intermediates are not part of the final products

It is irreversible

It reaches a fast equilibrium

It is the slowest step

It involves a catalyst

By assuming it is constant

By using the equilibrium constant of the first step

By using the rate constant of the second step

By measuring it directly

Rate = k[NO][Br2]

Rate = k[NO]^2[Br2]

Rate = k[NO][Br2]^2

Rate = k[NOBr2][NO]

Because they only apply to elementary reactions

Because they are only used for products

Because they are always zero

Because they are not related to reaction rates

It indicates a mistake in the calculation

It is a coincidence specific to this reaction

It shows the reaction is at equilibrium

It is a common occurrence in all reactions

The concentration of reactants

The rate constant

The concentration of products

The concentration of the intermediate