A rate constant
You need to know the rate of the reaction, as well as the concentrations of all reactants. Then you plug those values into the equation of rate = k[A][B] or whatever the rate equation happens to be.
You need to know the rate of the reaction, as well as the concentrations of all reactants. Then you plug those values into the equation of rate = k[A][B] or whatever the rate equation happens to be.
The equation is pV=k (k is a constant at constant temperature).
The Boyle-Mariotte law equation is: pV=k, where - p is the pressure - V is the volume - k is a constant specific for the system
Rate = k[A]m[B]n
A rate constant
You need to know the rate of the reaction, as well as the concentrations of all reactants. Then you plug those values into the equation of rate = k[A][B] or whatever the rate equation happens to be.
The equation is called the rate law equation. For the reaction aA+bB =>cC+dD the rate law would be rate = k[A]^m[B]^n where k is the rate constant and m and n are the "order" with respect to each reactant. m and n must be determined experimentally and may or may not be the same as the coefficients a and b.
You need to know the rate of the reaction, as well as the concentrations of all reactants. Then you plug those values into the equation of rate = k[A][B] or whatever the rate equation happens to be.
Rate= k[A]m[B]n is the formula that shows how the rate depends on the concentration of the reactants.
A relative rate constant the rate at which a reaction will take place. Ex. V = k [A][B] the constant ,k, is a constant value for the rate of the reaction in said equation.
They are experimentally determined exponents.
An equation that relates the reaction to the concentrations of the reactants
how does the rate law show how concentration changes after the rate of reaction
They are experimentally determined exponents
how does the rate law show how concentration changes after the rate of reaction