At constant temperature, a gas is at a pressure of 940.3 mm Hg. The pressure at which its volume decreases by 40% is mm Hg. (Nearest integer)
Solution and Explanation
Step 1: Write the given data
- Initial pressure, \( P_{\text{initial}} = 940.3 \, \text{mm Hg} \).
- Initial volume, \( V_{\text{initial}} = 100 \, \text{units} \) (assumed).
- Final volume, \( V_{\text{final}} = 100 - 40\% = 60 \, \text{units} \).
- Final pressure, \( P_{\text{final}} = ? \).
Step 2: Apply Boyle's Law
Boyle's law states that:
\[ P_{\text{initial}} \cdot V_{\text{initial}} = P_{\text{final}} \cdot V_{\text{final}}. \] Substitute the given values: \[ 940.3 \times 100 = P_{\text{final}} \times 60. \] Solving for \( P_{\text{final}} \): \[ P_{\text{final}} = \frac{940.3 \times 100}{60} = 1567.16 \, \text{mm Hg}. \]
Step 3: Round to the nearest integer \[ P_{\text{final}} = 1567 \, \text{mm Hg}. \]
Final Answer:
The pressure at which the volume decreases by 40% is \( P_{\text{final}} = 1567 \, \text{mm Hg}. \)
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Concepts Used:
Gas Laws
The gas laws were developed at the end of the 18th century, when scientists began to realize that relationships between pressure, volume and temperature of a sample of gas could be obtained which would hold to approximation for all gases.
The five gas laws are:
- Boyle’s Law, which provides a relationship between the pressure and the volume of a gas.
- Charles’s Law, which provides a relationship between the volume occupied by a gas and the absolute temperature.
- Gay-Lussac’s Law, which provides a relationship between the pressure exerted by a gas on the walls of its container and the absolute temperature associated with the gas.
- Avogadro’s Law, which provides a relationship between the volume occupied by a gas and the amount of gaseous substance.
- The Combined Gas Law (or the Ideal Gas Law), which can be obtained by combining the four laws listed above.