Use the References to access important values if neede The illustration to the left represents a mixture of nitrogen ( blue ) and hydrogen ( light blue) molecules. 8. If the molecales in the above illustration react to form NH3 according to the equation N2 +3 H2 2 NH3 , the limiting reagent is the number of NH, molecules formed is and the number of molecules in excess is Submit Answer Retry Entire Group 1 more group attempt remaining

Transcribed Image Text:

**Chemical Reaction Analysis: Limiting Reagent and Product Calculation** *The illustration to the left represents a mixture of nitrogen (blue) and hydrogen (light blue) molecules.* ### Task If the molecules in the above illustration react to form NH₃ according to the equation: \[ \text{N}_2 + 3 \text{H}_2 \rightarrow 2 \text{NH}_3 \] ### Problems to Solve 1. **Determine the Limiting Reagent** Identify which reactant will be consumed first and thus limit the amount of product formed. **The limiting reagent is:** (Fill in the blank here). 2. **Calculate the Number of NH₃ Molecules Formed** Determine the number of ammonia molecules produced based on the limiting reagent. **The number of NH₃ molecules formed is:** (Fill in the blank here). 3. **Identify the Number of Excess Molecules** Calculate the number of remaining molecules of the reactant that is not the limiting reagent after the reaction has completed. **The number of \_\_\_\_ molecules in excess is:** (Fill in the blank here). ### Graphical Illustration Explanation The illustration shows a mixture of nitrogen and hydrogen molecules: - **Nitrogen molecules (N₂)**: Represented in blue. - **Hydrogen molecules (H₂)**: Represented in light blue. The actual counts of each molecule type from the diagram are necessary to determine the limiting reagent and further calculations. ### User Actions 1. Complete the blanks based on your analysis. 2. Click on **"Submit Answer"** to submit your results. 3. If you need to try again, click on **“Retry Entire Group”**. 1 more group attempt remaining.