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Average Rate of Reaction Calculator

Calculate chemical kinetics based on concentration changes over time

Initial Concentration (mol/L or M)

Final Concentration (mol/L or M)

Initial Time (seconds)

Final Time (seconds)

Calculated Average Rate:

What is the Rate of Reaction?

The rate of reaction is a measure of how quickly a chemical reaction occurs. It is defined as the change in concentration of a reactant or product over a specific period of time. In most laboratory settings, this is measured in moles per liter per second (mol/L·s).

The Rate Formula

The mathematical expression for the average rate of reaction is:

Rate = |(C₂ – C₁) / (t₂ – t₁)|

Where:

C₁: Concentration at time t₁
C₂: Concentration at time t₂
t₁: Initial time
t₂: Final time

Rate of Reaction Calculation Example

Suppose you are monitoring the decomposition of Hydrogen Peroxide (H₂O₂). At the start of the experiment (0 seconds), the concentration is 2.50 M. After 50 seconds, the concentration drops to 2.10 M. What is the average rate of reaction?

Variable	Value
Initial Concentration (C₁)	2.50 mol/L
Final Concentration (C₂)	2.10 mol/L
Initial Time (t₁)	0 s
Final Time (t₂)	50 s
Calculation	(2.10 – 2.50) / (50 – 0) = -0.04 / 50
Average Rate	0.0008 mol/L·s

Why do we use Absolute Values?

While the change in concentration for a reactant is negative (because it is being consumed), the rate of reaction is conventionally expressed as a positive value. This represents the speed of the process regardless of whether you are tracking the disappearance of a reactant or the appearance of a product.

Factors That Influence Reaction Rates

Concentration: Higher concentrations usually lead to more frequent collisions between particles, increasing the rate.
Temperature: Increasing temperature gives particles more kinetic energy, leading to more effective collisions.
Surface Area: For solids, a finer powder reacts faster than a large block because more particles are exposed.
Catalysts: These substances lower the activation energy required for a reaction to proceed without being consumed themselves.