It is not a even a valid equation since "rate" is not a well-defined term. Rate is simply the average change in something per unit of time. If properly defined, it is an equivalence relationship.
y=mx +b is the equation for slope intercept form. y = the output of the equation m = the slope x = the input into the formula b = the y-intercept The slope represents the rate of change. This is because for every input, or x, you put into the equation, is changed by m. So the M portion of this equation would be the rate of change.
r=[A]m[B]n APPLEX
Rate of change = amount of change in some period of time/amount of time for the change
A proportion is an equation in which 2 fractions are set equal. A rate is the ratio of change of two things. Speed is a rate, the ratio of distance to time.
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 calculus operation for finding the rate of change in an equation is differentiation. By taking the derivative of the equation, you can find the rate at which one variable changes with respect to another.
An equation that relates the reaction rate to the concentration of the reactants
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
The Arrhenius equation is a mathematical model that relates the rate of a chemical reaction to temperature and activation energy. It helps to predict how the rate of a reaction changes with temperature. The equation is given by k = A * e^(-Ea/RT), where k is the rate constant, A is the pre-exponential factor, Ea is the activation energy, R is the gas constant, and T is the temperature.
A rate constant
The chemical equation is the word expression of a chemical reaction.The rate of reaction give information about the speed of this reaction.
They are experimentally determined exponents.
The Arrhenius equation was created by Svante Arrhenius in 1889, based on the work of Dutch chemist J. H. van't Hoff. The rate equation shows the effect of changing the concentrations of the reactants on the rate of the reaction.
In the Arrhenius equation, the rate constant (k) is not equal to one over time. The rate constant is a specific rate of reaction at a given temperature and is related to the activation energy (Ea) and the temperature (T) through the equation k = A * e^(-Ea/RT), where A is the pre-exponential factor and R is the gas constant. The relationship between rate constant (k) and time is more complex and depends on the reaction mechanism and conditions.
The rate of the reaction is calculated using the rate equation: rate = k[A]^3[B]^2. Given k = 0.01, [A] = 2 M, and [B] = 3 M, the rate can be determined by substituting these values into the rate equation and solving for the rate.