A 120.0 L weather balloon filled with 6.80 mol of helium has a small leak. If the helium leaks at a rate of 10.0 mmol/hr, what is the volume of the balloon after 60.0 hours? L

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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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**Problem Statement:**

A 120.0 L weather balloon filled with 6.80 mol of helium has a small leak. If the helium leaks at a rate of 10.0 mmol/hr, what is the volume of the balloon after 60.0 hours?

[Text Box] L

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**Explanation:**

This problem relates to the concept of gas leakage affecting the volume of a weather balloon over time. The key details involve:

- Initial Volume of the Balloon: 120.0 L
- Total Helium Present Initially: 6.80 mol
- Rate of Helium Leakage: 10.0 mmol/hr
- Time Duration of Leakage: 60.0 hours

The challenge is to calculate the new volume of the balloon after a given time, factoring in the consistent leak of helium. This requires understanding the relationship between the moles of gas, volume, and the rate of leakage. The volume change is derived from the decrease in moles of helium in the balloon over the specified time period.
Transcribed Image Text:**Problem Statement:** A 120.0 L weather balloon filled with 6.80 mol of helium has a small leak. If the helium leaks at a rate of 10.0 mmol/hr, what is the volume of the balloon after 60.0 hours? [Text Box] L --- **Explanation:** This problem relates to the concept of gas leakage affecting the volume of a weather balloon over time. The key details involve: - Initial Volume of the Balloon: 120.0 L - Total Helium Present Initially: 6.80 mol - Rate of Helium Leakage: 10.0 mmol/hr - Time Duration of Leakage: 60.0 hours The challenge is to calculate the new volume of the balloon after a given time, factoring in the consistent leak of helium. This requires understanding the relationship between the moles of gas, volume, and the rate of leakage. The volume change is derived from the decrease in moles of helium in the balloon over the specified time period.
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