Rate Constant Calculator
Estimate the rate constant for a rate law using initial rate data and apply it to predict rates at new concentrations.
Initial rate data
Reaction order and prediction
Results
Rate constant k
1.3628
Units depend on reaction order (e.g., L·mol⁻¹·s⁻¹ for second order).
Predicted rate
0.0307
How to Use This Calculator
Collect initial rate data
Measure reaction rates for different concentration combinations.
Enter rate law orders
Specify the reaction order with respect to each component.
Compute rate constant
The calculator estimates k by averaging across provided data points.
Predict rates
Input target concentrations to predict reaction rates using the fitted k.
Formula
rate = k Π [Aᵢ]^{mᵢ}
Rearranging gives k = rate / Π [Aᵢ]^{mᵢ}. Multiple data points are averaged to improve robustness.
Example
For rate = 0.015 mol·L⁻¹·s⁻¹ with [A] = 0.10 M, [B] = 0.10 M, and orders 1 each, k = 1.5 mol⁻¹·L·s⁻¹.
Full Description
Determining the rate constant is central to reaction kinetics. By analyzing initial rate data, chemists can extract k and use it to predict how rate changes with concentration.
This calculator complements kinetics experiments by handling the arithmetic and offering rate predictions for planning future runs.
Frequently Asked Questions
Do I need multiple data points?
Yes. More datapoints improve accuracy by averaging experimental noise.
How precise must orders be?
Use orders derived from log-log rate plots or known mechanisms. Incorrect orders lead to erroneous k values.
Can this handle zero-order terms?
Yes. Set order to 0 and the calculator omits that concentration from the product.
What units does k have?
Units depend on overall reaction order. For example, second-order reactions yield k in L·mol⁻¹·s⁻¹.
What if predicted rate seems unrealistic?
Ensure target concentrations mirror the data range. Extrapolating far outside measured values reduces reliability.