app.101edu.co Question 5 of 10 Su Consider the balanced chemical reaction below. What is the maximum amount of grams of Fe that can be produced from 33.4 g of iron(III) oxide mixed with 47.2 g of carbon monoxide? Fe:O:(s) + 3 CO(g) → 2 Fe(s) + 3 CO:(g) 2 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. Fe:O:(s) 3 CO(g) 2 Fe(s) 3 CO:(g) Before (mol) Change (mol) After (mol) 5 RESET 33.4 -33.4 47.2 -47.2 1.19 -1.19 0.209 -0.209 0.296 -0.296 1.69 -1.69 0.627 -0.627

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
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**Question 5 of 10**

Consider the balanced chemical reaction below. What is the maximum amount of grams of Fe that can be produced from 33.4 g of iron(III) oxide mixed with 47.2 g of carbon monoxide?

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

**Progress Bar:** 

- Section 1: Initiating stoichiometry calculation
- Section 2: Continuing stoichiometry calculation

**Instructions:** 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.

|              | \[\text{Fe}_2\text{O}_3(\text{s})\] | \[3 \text{CO}(\text{g})\] | \[\rightarrow\] | \[2 \text{Fe}(\text{s})\] | \[+\] | \[3 \text{CO}_2(\text{g})\] |
|--------------|-----------------|----------------|-------------|-------------|-----|---------------|
| **Before (mol)** |                   |                   |             |          |         |               |
| **Change (mol)** |                   |                   |             |          |         |               |
| **After (mol)**  |                   |                   |             |          |         |               |

**Calculator Options:**

- Values include: 0, 33.4, -33.4, 47.2, -47.2, 1.19, -1.19, 0.209, -0.209, 0.296, -0.296, 1.69, -1.69, 0.627, -0.627

**Reset Button:** Allows users to clear the table and start over.

---

This interface guides the user through solving a stoichiometry problem, utilizing a structured table to assess the chemical reaction from reactants to products.
Transcribed Image Text:**Question 5 of 10** Consider the balanced chemical reaction below. What is the maximum amount of grams of Fe that can be produced from 33.4 g of iron(III) oxide mixed with 47.2 g of carbon monoxide? \[ \text{Fe}_2\text{O}_3(\text{s}) + 3 \text{CO}(\text{g}) \rightarrow 2 \text{Fe}(\text{s}) + 3 \text{CO}_2(\text{g}) \] **Progress Bar:** - Section 1: Initiating stoichiometry calculation - Section 2: Continuing stoichiometry calculation **Instructions:** 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. | | \[\text{Fe}_2\text{O}_3(\text{s})\] | \[3 \text{CO}(\text{g})\] | \[\rightarrow\] | \[2 \text{Fe}(\text{s})\] | \[+\] | \[3 \text{CO}_2(\text{g})\] | |--------------|-----------------|----------------|-------------|-------------|-----|---------------| | **Before (mol)** | | | | | | | | **Change (mol)** | | | | | | | | **After (mol)** | | | | | | | **Calculator Options:** - Values include: 0, 33.4, -33.4, 47.2, -47.2, 1.19, -1.19, 0.209, -0.209, 0.296, -0.296, 1.69, -1.69, 0.627, -0.627 **Reset Button:** Allows users to clear the table and start over. --- This interface guides the user through solving a stoichiometry problem, utilizing a structured table to assess the chemical reaction from reactants to products.
**Question 5 of 10:**

Consider the balanced chemical reaction below. What is the maximum amount of grams of Fe that can be produced from 33.4 g of iron(III) oxide mixed with 47.2 g of carbon monoxide?

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

Based on the table you set up from the previous step, determine the maximum amount of grams of Fe that can be produced.

\[ \text{mass}_{\text{Fe}} = \underline{\hspace{3cm}} \text{g} \]

**Options Below for Mass of Fe:**

- 0
- 33.4
- 47.2
- 100
- 66.8
- 169
- 59.2
- 23.3
- 35.0
- 27.6
- 18.4

**Interface Details:**

At the top of the interface, there are navigation buttons labeled "PREV" and a progress bar indicating the question number (2 out of 10). A "RESET" button is available to clear inputs. Users can select or input their answer related to the maximum grams of Fe produced in the chemical reaction.
Transcribed Image Text:**Question 5 of 10:** Consider the balanced chemical reaction below. What is the maximum amount of grams of Fe that can be produced from 33.4 g of iron(III) oxide mixed with 47.2 g of carbon monoxide? \[ \text{Fe}_2\text{O}_3(s) + 3 \text{CO}(g) \rightarrow 2 \text{Fe}(s) + 3 \text{CO}_2(g) \] Based on the table you set up from the previous step, determine the maximum amount of grams of Fe that can be produced. \[ \text{mass}_{\text{Fe}} = \underline{\hspace{3cm}} \text{g} \] **Options Below for Mass of Fe:** - 0 - 33.4 - 47.2 - 100 - 66.8 - 169 - 59.2 - 23.3 - 35.0 - 27.6 - 18.4 **Interface Details:** At the top of the interface, there are navigation buttons labeled "PREV" and a progress bar indicating the question number (2 out of 10). A "RESET" button is available to clear inputs. Users can select or input their answer related to the maximum grams of Fe produced in the chemical reaction.
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