If the reaction is zero order, how long would it take for I2 disappear?
To determine how long it would take for I2 to disappear in a zero-order reaction, you need to know the rate constant and initial concentration of I2. The rate law for a zero-order reaction can be written as:
Rate = k
In a zero-order reaction, the rate is independent of the concentration of the reactant. Therefore, the reaction proceeds at a constant rate until the reactant is completely consumed.
To calculate the time required for I2 to disappear, you need additional information, specifically the rate constant or the rate of the reaction. Without that information, it is not possible to provide an exact time.
To determine how long it would take for I2 to disappear in a zero-order reaction, you need to know the rate constant for the reaction, denoted as k. In a zero-order reaction, the rate of reaction is independent of the concentration of the reactant.
The general form of a zero-order reaction is:
A → products
The rate equation for a zero-order reaction is:
Rate = k
To find the time it takes for I2 to disappear, you need to know the initial concentration of I2, denoted as [I2]0, and the rate constant, k. With these values, you can use the following equation to calculate the time (t):
t = ([I2]0) / k
By substituting the known values into the equation, you can find the time it would take for I2 to disappear in the zero-order reaction.