How important is it to check the weather?
Each day, hundreds of weather balloons are launched. Made of a synthetic rubber and carrying a box of instruments, the helium-filled balloon rises up into the sky. As it gains altitude, the atmospheric pressure becomes less and the balloon expands. At some point the balloon bursts due to the expansion, the instruments drop (aided by a parachute) to be retrieved and studied for information about the weather.
Boyle’s Law
Robert Boyle (1627-1691), an English chemist, is widely considered to be one of the founders of the modern experimental science of chemistry. He discovered that doubling the pressure of an enclosed sample of gas while keeping its temperature constant caused the volume of the gas to be reduced by half. Boyle’s law states that the volume of a given mass of gas varies inversely with the pressure when the temperature is kept constant. An inverse relationship is described in this way. As one variable increases in value, the other variable decreases.
Physically, what is happening? The gas molecules are moving and are a certain distance apart from one another. An increase in pressure pushes the molecules closer together, reducing the volume. If the pressure is decreased, the gases are free to move about in a larger volume.
Robert Boyle.
Mathematically, Boyle’s law can be expressed by the equation:
The is a constant for a given sample of gas and depends only on the mass of the gas and the temperature. The Table below shows pressure and volume data for a set amount of gas at a constant temperature. The third column represents the value of the constant for this data and is always equal to the pressure multiplied by the volume. As one of the variables changes, the other changes in such a way that the product of always remains the same. In this particular case, that constant is 500 atm · ml.
Pressure (atm) | Volume (mL) | |
0.5 | 1000 | 500 |
0.625 | 800 | 500 |
1.0 | 500 |
500 |
2.0 | 250 |
500 |
5.0 | 100 | 500 |
8.0 | 62.5 | 500 |
10.0 | 50 | 500 |
A graph of the data in the table further illustrates the inverse relationship nature of Boyle’s Law (see Figure below ). Volume is plotted on the -axis, with the corresponding pressure on the -axis.
The pressure of a gas decreases as the volume increases, making Boyle’s law an inverse relationship.
Boyle’s Law can be used to compare changing conditions for a gas. We use and to stand for the initial pressure and initial volume of a gas. After a change has been made, and stand for the final pressure and volume. The mathematical relationship of Boyle’s Law becomes:
This equation can be used to calculate any one of the four quantities if the other three are known.
Sample Problem: Boyle’s Law
A sample of oxygen gas has a volume of 425 mL when the pressure is equal to 387 kPa. The gas is allowed to expand into a 1.75 L container. Calculate the new pressure of the gas.
Step 1: List the known quantities and plan the problem.
Known
Unknown
Use Boyle’s Law to solve for the unknown pressure . It is important that the two volumes ( and ) are expressed in the same units, so has been converted to mL.
Step 2: Solve.
First, rearrange the equation algebraically to solve for .
Now substitute the known quantities into the equation and solve.
Step 3: Think about your result.
The volume has increased to slightly over 4 times its original value and so the pressure is decreased by about . The pressure is in kPa and the value has three significant figures. Note that any pressure or volume units can be used as long as they are consistent throughout the problem.
Pressure vs. Volume
Have you ever wondered why your ears pop during airplane take offs and landings? Or why a balloon pops when you squeeze it too much? Find out in this MIT video. See https://www.youtube.com/watch?v=1WJcC8DvGUo .
Summary
- The volume of a gas is inversely proportional to temperature.
Practice
Do the problems at the link below:
http://www.concord.org/~ddamelin/chemsite/g_gasses/handouts/Boyle_Problems.pdf
Review
Questions
- What does “inversely” mean in this law?
- Explain Boyle’s law in terms of the kinetic-molecular theory of gases.
- Does it matter what units are used?