On this educational page, we explore a stoichiometry problem based on a balanced chemical reaction. **Scenario:**Consider the reaction of iron(III) oxide with carbon monoxide:\[ \text{Fe}_2\text{O}_3(\text{s}) + 3 \text{CO}(\text{g}) \rightarrow 2 \text{Fe}(\text{s}) + 3 \text{CO}_2(\text{g}) \]When 50.0 g of iron(III) oxide and 50.0 g of carbon monoxide react, the reaction produces 24.3 g of iron. The task is to calculate the percentage yield of the reaction.**Instructions:**Using stoichiometry, determine the moles of each reactant and product when the reaction proceeds to completion, assuming a 100% yield. Follow the reaction table for calculations.**Reaction Table:**| Component | Fe₂O₃(s) | 3 CO(g) | → | 2 Fe(s) | + | 3 CO₂(g) ||---------------|----------|---------|---|---------|---|----------|| **Before (mol)** | | | | | | || **Change (mol)** | | | | | | || **After (mol)** | | | | | | |Below the table, buttons display various values, likely useful for calculating moles or finding the limiting reactant.**Detailed Explanation:**- **Before (mol):** Initial moles of reactants.- **Change (mol):** Moles consumed/produced during the reaction.- **After (mol):** Remaining moles of reactants/products formed after the reaction.Use the given masses and molar masses to perform stoichiometric conversions and fill in the table. After solving, compare actual to theoretical yield to find percentage yield.

Molar mass of Fe2O3 =(56×2+16×3) g/mol = 160 g/molMolar mass…

Consider the balanced chemical reaction below. If 24.3 g of iron is produced when 50.0 g of iron(III) oxide and 50.0 g of carbon monoxide react, what is the percentage yield of the reaction? Fe203(s) + 3 CO(g) → 2 Fe(s) + 3 CO2(g) 1 3 NEXT Based on your knowledge of stoichiometry, set up the table below to determine the amounts of each reactant and product after the reaction goes to completion (assume 100% yield). Fe,03(s) 3 CO(g) 2 Fe(s) 3 CO2(g) + Before (mol) Change (mol) After (mol)

Consider the balanced chemical reaction below. If 24.3 g of iron is produced when 50.0 g of iron(III) oxide and 50.0 g of carbon monoxide react, what is the percentage yield of the reaction? Fe203(s) + 3 CO(g) → 2 Fe(s) + 3 CO2(g) 1 3 NEXT Based on your knowledge of stoichiometry, set up the table below to determine the amounts of each reactant and product after the reaction goes to completion (assume 100% yield). Fe,03(s) 3 CO(g) 2 Fe(s) 3 CO2(g) + Before (mol) Change (mol) After (mol)

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Concept explainers

Stoichiometry

Stoichiometry is a chemical division that evaluates the quantitative content of the chemical process with the help of the reacting molecules or products taking part in the reaction. The term “stoicheion” in “Stoichiometry”, is an old Greek term for "element" whereas “metron” means "measure".

Question

100%

On this educational page, we explore a stoichiometry problem based on a balanced chemical reaction.

**Scenario:**
Consider the reaction of iron(III) oxide with carbon monoxide:

\[ \text{Fe}_2\text{O}_3(\text{s}) + 3 \text{CO}(\text{g}) \rightarrow 2 \text{Fe}(\text{s}) + 3 \text{CO}_2(\text{g}) \]

When 50.0 g of iron(III) oxide and 50.0 g of carbon monoxide react, the reaction produces 24.3 g of iron. The task is to calculate the percentage yield of the reaction.

**Instructions:**
Using stoichiometry, determine the moles of each reactant and product when the reaction proceeds to completion, assuming a 100% yield. Follow the reaction table for calculations.

**Reaction Table:**

| Component | Fe₂O₃(s) | 3 CO(g) | → | 2 Fe(s) | + | 3 CO₂(g) |
|---------------|----------|---------|---|---------|---|----------|
| **Before (mol)** | | | | | | |
| **Change (mol)** | | | | | | |
| **After (mol)** | | | | | | |

Below the table, buttons display various values, likely useful for calculating moles or finding the limiting reactant.

**Detailed Explanation:**

- **Before (mol):** Initial moles of reactants.
- **Change (mol):** Moles consumed/produced during the reaction.
- **After (mol):** Remaining moles of reactants/products formed after the reaction.

Use the given masses and molar masses to perform stoichiometric conversions and fill in the table. After solving, compare actual to theoretical yield to find percentage yield.

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