Determining the Pressure of Compressed Gas Using Boyle's Law

How can we use Boyle's law to determine the pressure of compressed gas in a syringe?

Boyle's Law states that the pressure of a gas is inversely proportional to its volume, as long as the temperature remains constant. When a gas is placed in a syringe and the volume is reduced by pressing the plunger, we can use Boyle's law to calculate the new pressure of the compressed gas.

Boyle's Law Formula

Boyle's Law formula can be expressed as: \[P_1V_1=P_2V_2\] Where: - \(P_1\) = Initial pressure of the gas - \(V_1\) = Initial volume of the gas - \(P_2\) = Final pressure of the gas - \(V_2\) = Final volume of the gas

Given Data

The data provided in the problem are: - Initial volume, \(V_1 = 5.0 \ mL\) - Initial pressure, \(P_1 = 127 \ mm \ Hg\) - Final volume, \(V_2 = 2.4 \ mL\) - Pressure of the compressed gas (to be calculated), \(P_2 = ?\)

Calculating the Pressure

Substitute the given values into Boyle's Law formula: \[127 \times 5 = P_2 \times 2.4\] \[635 = 2.4P_2\] \[P_2 = \frac{635}{2.4}\] \[P_2 = 264.58 \ mm \ Hg\] Therefore, the pressure of the compressed gas in the syringe is 264.58 mm Hg.
← Optimizing light reflection with corner reflectors Interpreting weather symbols for wind speed →