Use the References to access important values if needed for this question. What is the total volume of gaseous products formed when 26.8 liters of bromine trifluoride react completely according to the following reaction? (All gases are at the same temperature and pressure.) bromine trifluoride (g) → bromine(g) + fluorine(g) Volume= Submit Answer L Retry Entire Group 9 more group attempts remaining

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**Chemistry Reaction Volume Calculation**

**Question:**  
What is the total volume of gaseous products formed when 26.8 liters of bromine trifluoride react completely according to the following reaction? (All gases are at the same temperature and pressure.)

\[ \text{bromine trifluoride (g)} \rightarrow \text{bromine (g)} + \text{fluorine (g)} \]

**Volume:**  
\[ \_\_ \text{L} \]

**Options:**  
- **Submit Answer**
- **Retry Entire Group**  

*Note: 9 more group attempts remaining.*

---

**Explanation:**

This problem is asking for the total volume of gaseous products, bromine and fluorine, produced when 26.8 liters of bromine trifluoride decomposes according to the given chemical reaction. Assume that all reactions occur at the same temperature and pressure, which allows the use of volume ratios directly from the balanced chemical equation.

The task is to calculate the total volume of gases (bromine and fluorine) formed.
Transcribed Image Text:**Chemistry Reaction Volume Calculation** **Question:** What is the total volume of gaseous products formed when 26.8 liters of bromine trifluoride react completely according to the following reaction? (All gases are at the same temperature and pressure.) \[ \text{bromine trifluoride (g)} \rightarrow \text{bromine (g)} + \text{fluorine (g)} \] **Volume:** \[ \_\_ \text{L} \] **Options:** - **Submit Answer** - **Retry Entire Group** *Note: 9 more group attempts remaining.* --- **Explanation:** This problem is asking for the total volume of gaseous products, bromine and fluorine, produced when 26.8 liters of bromine trifluoride decomposes according to the given chemical reaction. Assume that all reactions occur at the same temperature and pressure, which allows the use of volume ratios directly from the balanced chemical equation. The task is to calculate the total volume of gases (bromine and fluorine) formed.
**Problem Statement:**

What volume of hydrogen gas is produced when 1.09 mol of iron reacts completely according to the following reaction at 0°C and 1 atm?

\[ \text{iron (s)} + \text{hydrochloric acid (aq)} \rightarrow \text{iron(II) chloride (aq)} + \text{hydrogen (g)} \]

**Calculation Requirements:**

- Input the resulting volume in the provided answer box.
- Utilize the appropriate gas law equations to determine the volume of hydrogen gas at the specified conditions (0°C and 1 atm).

**Instructions:**

1. Review the balanced chemical equation and identify the stoichiometry relating iron to hydrogen gas.
2. Calculate the number of moles of hydrogen gas produced.
3. Use the ideal gas law to find the volume of hydrogen gas at standard temperature and pressure.

**Submission:**

- Enter the calculated volume in liters in the answer box.
- Ensure calculations are accurate and double-check using known constants.
- You have 8 more group attempts remaining.

**Interface Details:**

- Click "Submit Answer" when ready, or "Retry Entire Group" if you need to reevaluate your calculations.

This problem is an application of stoichiometry and gas laws in chemistry.
Transcribed Image Text:**Problem Statement:** What volume of hydrogen gas is produced when 1.09 mol of iron reacts completely according to the following reaction at 0°C and 1 atm? \[ \text{iron (s)} + \text{hydrochloric acid (aq)} \rightarrow \text{iron(II) chloride (aq)} + \text{hydrogen (g)} \] **Calculation Requirements:** - Input the resulting volume in the provided answer box. - Utilize the appropriate gas law equations to determine the volume of hydrogen gas at the specified conditions (0°C and 1 atm). **Instructions:** 1. Review the balanced chemical equation and identify the stoichiometry relating iron to hydrogen gas. 2. Calculate the number of moles of hydrogen gas produced. 3. Use the ideal gas law to find the volume of hydrogen gas at standard temperature and pressure. **Submission:** - Enter the calculated volume in liters in the answer box. - Ensure calculations are accurate and double-check using known constants. - You have 8 more group attempts remaining. **Interface Details:** - Click "Submit Answer" when ready, or "Retry Entire Group" if you need to reevaluate your calculations. This problem is an application of stoichiometry and gas laws in chemistry.
Expert Solution
Step 1: Determine the total volume of the gaseous products and volume of the hydrogen gas from the data:

Given,

7. The reaction:

    Bromine trifluoride (g) rightwards arrow Bromine (g) + Fluorine (g)

        volume of bromine trifluorine = 26.8 L

8.  The reaction:

    Iron (s) + hydrochloric acid (aq) rightwards arrow Iron (II) chloride (aq) + hydrogen (g)

   moles of iron = 1.09 mol

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