Enter the chemical equation, click “Calculate”, and add the known amount of each reactant to find the limiting reactant with this tool.
The limiting reactant calculator works to calculate the limiting reactant in a chemical reaction. It balances the chemical equation and shows the reactants and products along with their coefficients. Then, by adding values of reactants, it identifies the limiting reagent that is completely consumed and the maximum amount of product that can be formed based on the limitations.
In a chemical reaction, the limiting reactant is the reactant that gets completely consumed, limiting the amount of final product (also called yield) that can be formed. The limiting reactant can be determined with the help of the stoichiometry of the balanced chemical equation. A stoichiometry refers to the balanced chemical equation that indicates the relative ratios of reactants required to react completely and to form the product.
It is necessary to have a balanced chemical equation for the reaction. A balanced equation contains the reactants (starting materials) on the left side and the products (formed substances) on the right side, with coefficients showing their quantities. You must balance your chemical reaction to highlight the limiting reactant before going further.
For example, in an equation like:
H2 + O2 =H2O
Balanced Equation: 2 H2 + O2 -> 2 H2O
The coefficients in the balance equation represent the mole ratios of reactants and the products that are formed. In the above example, the mole ratio of H2 to O2 is 2:1, meaning 2 moles of H2 react with 1 mole of O2 to form 2 moles of H2O.
If you have information about the initial amounts of reactants (mass, volume), you can convert them to moles using their molar masses or molar volumes (for gases). This allows you to compare them directly using mole ratios.
Let's suppose, you react propane (C3H8) and oxygen (O2) to produce carbon dioxide (CO2) and water (H2O), given 5 moles of propane and 8 moles of oxygen. Now find the limiting reactant and the amount of CO2 produced.
Solution:
Step #1: Balanced Chemical Equation
The balanced chemical equation for this reaction is:
C3H8 + 5O2 -> 3CO2 + 4H2O
It shows that 1 mole of Propane (C3H8) reacts with 5 moles of Oxygen (O2) to produce 3 moles of Carbon Dioxide (CO2) and 4 moles of Water (H2O).
Step #2: Mole Ratios
Step #3: Convert Quantities to Moles
We are given the initial quantities of the reactants in moles:
Step #4: Compare Reactant Quantities
Divide the initial moles of each reactant by its corresponding mole ratios:
Propane (C3H8): Moles (ratio to O2)
Propane (C3H8): 5 1
Propane (C3H8) = 5 moles
Oxygen (O2): Moles (ratio to C3H8)
Oxygen (O2): 8 5
Oxygen (O2) = 1.6 moles
Analyze The Results:
If all the Propane (4 moles) is used based on its mole ratio, it will require 5 moles x 5 (ratio) = 25 moles of Oxygen. But we only have 8 moles of Oxygen which will be used up before all the Propane reacts.
Limiting Reagant = Oxygen (O2)
Apart from these steps, the limiting reactant finding process can be automated with the use of our limiting reactant calculator.
No, there can’t be a limiting reagent if only one reactant is involved in the chemical reaction. The limiting reactant is the situation where multiple reactants are involved in a reaction.
The limiting reactant is used to find the amount of product that can be obtained from a reaction in which reactants are involved in a specific quantity.
Yes, for a specific reaction where the initial reactants are given, the limiting reactant will remain the same. You can use the limiting reagent calculator to analyze the reaction by identifying the limiting reactant.
From the source of Wikipedia: Limiting reagents, Comparison, Comparison of product amounts.
From the source of Khan Academy: Limiting reactant, Reaction yields, Stoichiometry.
From the source of Lumen Learning: Limiting Reagents, Chemical Reactions.