Why is it important to identify the limiting reactant in a chemical reaction?

• A. To predict the color change of the reaction.
• B. To determine the reaction's temperature change.
• C. To calculate the amount of product that can be formed.
• D. To identify the fastest reacting element.

Answer: (C)

Identifying the limiting reactant in a chemical reaction is essential for calculating the amount of product that can be formed. The limiting reactant is the substance that is completely consumed when the chemical reaction goes to completion. It determines the maximum extent of the reaction, meaning no additional product can be generated beyond what the limiting reactant can provide.

When the limiting reactant is identified, it allows chemists to use stoichiometric relationships from the balanced chemical equation to predict how much product will be produced. This is crucial for various applications, such as optimizing reactant use in industrial processes, ensuring efficient resource allocation, and predicting yields in laboratory settings.

The other choices do not directly relate to the fundamental purpose of determining the limiting reactant, which centers on product yield. Knowing the color change or temperature change of the reaction can be useful, but these factors do not inform about the quantity of product derived from the limiting reactant. Similarly, identifying the fastest reacting element is not relevant to predicting product formation, as the rate of reaction does not impact the stoichiometry involved in producing the final products.