Presentation is loading. Please wait.

Presentation is loading. Please wait.

Boyle’s Law.  Start with the plunger all the way into the syringe. Try pulling out and pushing in the plunger. Now “plug the end” with your finger and.

Published byClaire Hawkins Modified over 9 years ago

Similar presentations

Presentation on theme: "Boyle’s Law.  Start with the plunger all the way into the syringe. Try pulling out and pushing in the plunger. Now “plug the end” with your finger and."— Presentation transcript:

1 Boyle’s Law

2  Start with the plunger all the way into the syringe. Try pulling out and pushing in the plunger. Now “plug the end” with your finger and try to pull and push the plunger  Record on your paper what you notice about each situation. Step 1) no airUnpluggedPlugged with finger Push plunger in Pull plunger out

3  Now pull out the plunger so there is some air in the syringe. Try pushing in the plunger and pulling out the plunger.  Repeat but this time plug the opening with your finger first. Step 2) AirUnpluggedPlugged with finger Push plunger in Pull plunger out

4  Take two marshmallows and draw a face on each  Remove the plunger from the syringe  Place one marshmallow in the syringe and replace the plunger  Push in the plunger to force out as much air as possible without squeezing the marshmallow

5  Plug the syringe with your finger  Pull on the plunger, hold it in the “out” position and record your observations  Predict what will happen when you release the plunger. Record  Release the plunger and record your observations  Repeat several times so everyone gets a chance to “play”

6

7  Boyle’s law states that volume of a gas varies INVERSELY with pressure at constant temperature and constant number of gas molecules.  If pressure decreases (pull plunger out) = volume increases (marshmallow got bigger)  If pressure increases (push plunger in) = volume decreases (marshmallow got smaller)

8  When discussing gases, one must always specify the  Temperature  Volume  Pressure  Quantity (number of molecules) All of these will affect the way the gases behave.

9  Imagine a marshmallow sealed on Earth in a steel container at 1 atm pressure. Predict what change (if any) would occur in the volume of the marshmallow if the container were opened in each of the following situations (assuming not temperature change):  1. In a space shuttle: weightless but pressurized at 1 atm  2. On a space walk: weightless with 0 atm pressure  3. On a deep-sea dive: at a depth of 1000 ft which 4 atm of pressure

Download ppt "Boyle’s Law.  Start with the plunger all the way into the syringe. Try pulling out and pushing in the plunger. Now “plug the end” with your finger and."

Similar presentations

ETF Activities Boyle’s Law Lemon Battery.

ETF Activities Boyle’s Law Lemon Battery.
Factors that Affect Gas Pressure

Factors that Affect Gas Pressure
The Ideal Gas Relationships. Three Factors to Consider Pretend you are a fixed amount of gas…Who has a great influence on your life? Pretend you are a.

The Ideal Gas Relationships. Three Factors to Consider Pretend you are a fixed amount of gas…Who has a great influence on your life? Pretend you are a.
Solids, liquids, and Gases

Solids, liquids, and Gases
Gas Laws.

Gas Laws.
Pressure in Gases (Ideal Gases) Objectives (a) state Boyle’s law.

Pressure in Gases (Ideal Gases) Objectives (a) state Boyle’s law.
Where’s the Air?.

Where’s the Air?.
The Air Around Us Investigation 2, Part 1 -edited for Website

The Air Around Us Investigation 2, Part 1 -edited for Website
Gas Laws.

Gas Laws.
Properties of gases No definite shape- it fills its container No definite shape- it fills its container Compressible- with increased pressure. Compressible-

Properties of gases No definite shape- it fills its container No definite shape- it fills its container Compressible- with increased pressure. Compressible-
Compressing Gases Gases hold huge amounts of energy, and their molecules are spread out as much as possible. With very little pressure, when compared to.

Compressing Gases Gases hold huge amounts of energy, and their molecules are spread out as much as possible. With very little pressure, when compared to.
GAS LAWS. Gas Laws  As you recall, gasses have no fixed shape or volume  However, the relationship between the pressure, volume, and temperature of.

GAS LAWS. Gas Laws  As you recall, gasses have no fixed shape or volume  However, the relationship between the pressure, volume, and temperature of.
Behavior of Gases Review. True or False: One mole of any gas, regardless of size, temperature, or pressure occupies 22.4L? 1.True 2.False.

Behavior of Gases Review. True or False: One mole of any gas, regardless of size, temperature, or pressure occupies 22.4L? 1.True 2.False.
Chapter 12 Section 1 - Characteristics of Gases

Chapter 12 Section 1 - Characteristics of Gases
Properties of Air. Background Weather is affected by the unique properties of air. These properties include: Air has mass and volume Air expands to fill.

Properties of Air. Background Weather is affected by the unique properties of air. These properties include: Air has mass and volume Air expands to fill.
GAS LAWS. BOYLE’S LAW DEMO Bell Jar and Marshmallow -The marshmallow is getting bigger (expanding – volume increases). Why? -How do volume and pressure.

GAS LAWS. BOYLE’S LAW DEMO Bell Jar and Marshmallow -The marshmallow is getting bigger (expanding – volume increases). Why? -How do volume and pressure.
Bell Work: GAS LAWS Directions: Choose the gas law that is necessary to solve each problem. Do NOT write down or solve the problems. 1.A gas that has.

Bell Work: GAS LAWS Directions: Choose the gas law that is necessary to solve each problem. Do NOT write down or solve the problems. 1.A gas that has.
Gas Laws Quantitative Chemistry. Measurement of Molar Quantities 1 mole of a substance contains 6.02 x 10 23 particles.

Gas Laws Quantitative Chemistry. Measurement of Molar Quantities 1 mole of a substance contains 6.02 x particles.
BEHAVIOR OF GASES. Circumference of balloon. Suppose you are watching a parade that you have been looking forward to for weeks. You may be fascinated.

BEHAVIOR OF GASES. Circumference of balloon. Suppose you are watching a parade that you have been looking forward to for weeks. You may be fascinated.
Particles have LOTS of energy; moving all around Gases take on the shape and volume of their container. Gases will spread out evenly = diffusion Ruled.

Particles have LOTS of energy; moving all around Gases take on the shape and volume of their container. Gases will spread out evenly = diffusion Ruled.

Similar presentations

Ads by Google