An ideal gas is allowed to expand from 8.80 L to 74.8 L at constant temperature. By what factor does the volume increase?

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
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**Transcription for Educational Website**

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**Ideal Gas Expansion Problem**

An ideal gas is allowed to expand from 8.80 L to 74.8 L at a constant temperature. 

1. **Volume Increase Factor**

   - **Question**: By what factor does the volume increase?
   - **Response area**: [__________]

2. **Pressure Change**

   - **Statement**: The pressure will:
     - ( ) increase by that same factor.
     - ( ) decrease by that same factor.

3. **Pressure Calculation**

   - **Question**: If the initial pressure was 123 atm, what is the final pressure?
   - **Response area**: [__________]

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**Notes for Students**: This exercise involves applying the ideal gas law, particularly understanding the relationship between volume and pressure at constant temperature. Consider using the formula \( PV = nRT \) to derive relationships, focusing on how changes in volume affect pressure.
Transcribed Image Text:**Transcription for Educational Website** --- **Ideal Gas Expansion Problem** An ideal gas is allowed to expand from 8.80 L to 74.8 L at a constant temperature. 1. **Volume Increase Factor** - **Question**: By what factor does the volume increase? - **Response area**: [__________] 2. **Pressure Change** - **Statement**: The pressure will: - ( ) increase by that same factor. - ( ) decrease by that same factor. 3. **Pressure Calculation** - **Question**: If the initial pressure was 123 atm, what is the final pressure? - **Response area**: [__________] --- **Notes for Students**: This exercise involves applying the ideal gas law, particularly understanding the relationship between volume and pressure at constant temperature. Consider using the formula \( PV = nRT \) to derive relationships, focusing on how changes in volume affect pressure.
**Factor:**

[Input Field]

**The pressure will:**

- ☐ increase by that same factor.
- ☐ decrease by that same factor.

**If the initial pressure was 123 atm, what is the final pressure?**

\[ P_{\text{final}} = \]

[Input Field] atm

(Note: This image is a worksheet related to calculating changes in pressure with respect to a given factor, likely for a chemistry or physics lesson. Users need to input a multiplication or division factor, determine whether the pressure increases or decreases by that factor, and calculate the final pressure based on an initial value of 123 atm.)
Transcribed Image Text:**Factor:** [Input Field] **The pressure will:** - ☐ increase by that same factor. - ☐ decrease by that same factor. **If the initial pressure was 123 atm, what is the final pressure?** \[ P_{\text{final}} = \] [Input Field] atm (Note: This image is a worksheet related to calculating changes in pressure with respect to a given factor, likely for a chemistry or physics lesson. Users need to input a multiplication or division factor, determine whether the pressure increases or decreases by that factor, and calculate the final pressure based on an initial value of 123 atm.)
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