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Know the Law Lesson Outcome: To be familiar with Boyles Law Boyle’s Law!

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Presentation on theme: "Know the Law Lesson Outcome: To be familiar with Boyles Law Boyle’s Law!"— Presentation transcript:

1 Know the Law Lesson Outcome: To be familiar with Boyles Law Boyle’s Law!

2 What is Boyle’s Law? Boyle’s Law is one of the laws in chemistry that concerns the behaviour of gases When a gas is under pressure it takes up less space The higher the pressure, the smaller the volume Boyles Law tells us about the relationship between the volume of a gas and its pressure at a constant temperature The law states that pressure is inversely proportional to the volume

3 How can we write Boyle’s Law as a formula? Pressure is inversely proportional to the volume and can be written as: Pressure  1/volume P=pressure in KPa or atm V= volume in litres k = constant This is more usually written as: Pressure = constant volume PV = k P 1 V 1 =P 2 V 2

4 Below are some results of an experiment Calculate pV (pressure x volume) for each set of results. What do you notice? Pressure pVolume VP x V 1.010 2.05 3.03.33 4.02.5 10

5 What these experimental results show The pressure x volume for each set of results remains constant This is called Boyle’s Law For a fixed mass of gas, at constant temperature, pV = constant or P 1 x V 1 = P 2 x V 2 Let us look at the results again

6 Here are the results of the experiment Did you notice that if p is doubled, V is halved? If p increases to 3 times as much, V decreases to a 1/3 rd. This means: Volume is inversely proportional to pressure, or V  1 p Pressure p Volume V P x V 1.010 2.0510 3.03.3310 4.02.510

7 What sort of graphs would this data give? If we plot volume directly against pressure we would get a downwards curve showing that volume gets smaller as the pressure gets larger, and vice versa.

8 This leads us back to Boyle’s Law Boyle’s Law: for a fixed mass of gas kept at constant temperature the volume of the gas is inversely proportional to its pressure. http://www.youtube.com/watch?v=o8Sbjm0pnA4

9 Problem: A deep sea diver is working at a depth where the pressure is 3.0 atmospheres. He is breathing out air bubbles. The volume of each air bubble is 2cm 3. At the surface the pressure is 1 atmosphere. What is the volume of each bubble when it reaches the surface?

10 How we work this out: We assume that the temperature is constant, so Boyle’s Law applies: Formula first:P 1 x V 1 = P 2 x V 2 Then numbers:= 3.0 x 2 = 1.0 x V 2 Now rearrange the numbers so that you have V2 on one side, and the rest of the numbers on the other side of the ‘equals’ symbol.

11 Here’s what you should have calculated V 2 = 3.0 x 2 1.0 therefore volume of bubbles = 6 cm 3 Note that P 1 and P 2 have the same unit, as will V 1 and V 2

12 EXERCISE  73.3 kPa pressure of gas in a 2.5 L flask is expanded into a total volume of 6.3 L at constant temperature. Calculate the final pressure.  A chemist filled a 750 mL flask with 93.3 kPA pressure of gas, then expanded it into an unknown volume. The final pressure was 29.9 kPa. What was the final volume? 29.1 kPA 2.3L

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