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Compressing Gases

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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 liquids and ... – PowerPoint PPT presentation

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Title: Compressing Gases


1
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
    liquids and solids, those molecules can be
    compressed. It happens all of the time.
    Combinations of pressure and decreasing
    temperature force gases into tubes that we use
    every day. You might see compressed air in a
    spray bottle or feel the carbon dioxide rush out
    of a can of soda. Those are both examples of gas
    forced into a smaller space than it would want,
    and the gas escapes the first chance it gets. The
    gas molecules move from an area of high pressure
    to one of low pressure.

2
Lesson Frame
  • I can analyze how trapped gas reacts when
    temperature, volume or pressure are changed.
  • I will observe several different situations and
    determine which variables are changing and how
    they are changing.
  • I will have mastered this when I can identify gas
    laws based on how the variables are changing.

3
Gas Laws
  • At each lab station that you work at today, a
    gas (air) will be trapped in various types of
    containers. It will be your job to analyze how
    the trapped gas reacts when pressure, volume, and
    temperature are changed.

4
Demonstration  Nice shot Spud!
  • Observe the demonstration.
  • Determine whether or not the pressure, volume,
    and temperature is increasing, decreasing or
    staying the same and record the data in your
    journal.
  • Write a paragraph to describe your observations.

Pressure Volume Temper-ature
Increase, decrease, same
Gas Law
5
Station 1    Life in a Vacuum!
  • Instructions
  • Place a mini marshmallow into the vacuum
    chamber" and push the plunger down so that it
    stops just above the marshmallow. Wrap the
    plastic wrap around the open end. Place your
    finger over the open end and slowly pull the
    plunger out while observing the marshmallow.
  • Determine whether or not the pressure, volume,
    and temperature is increasing, decreasing or
    staying the same and record the data in your
    journal.
  • Write a paragraph to describe your observations.

Pressure Volume Temper-ature
Increase, decrease, same
Gas Law
6
Station 2     The Cartesian Diver
  • Instructions
  • The "diver" is the dropper which is inside the
    large plastic bottle. Note the position of the
    diver inside the bottle as the bottle sits on the
    table. Squeeze and release the bottle.
  • Determine whether or not the pressure, volume,
    and temperature is increasing, decreasing or
    staying the same and record the data in your
    journal.
  • Write a paragraph to describe your observations.

Pressure Volume Temper-ature
Increase, decrease, same
Gas Law
7
Station 3    Ivory Soap Flower
  • Instructions
  • Place a chunk of Ivory soap on a paper plate and
    place in the microwave. Turn on the microwave for
    1-2 minutes.
  • Determine whether or not the pressure, volume,
    and temperature is increasing, decreasing or
    staying the same and record the data in your
    journal.
  • Write a paragraph to describe your observations.

Pressure Volume Temper-ature
Increase, decrease, same
Gas Law
8
Station 4You Can Do it!
  • Instructions
  • Place 5 ml of water in the can. Heat on hot plate
    until steam begins to escape then quickly place
    in the ice bath.
  • Determine whether or not the pressure, volume,
    and temperature is increasing, decreasing or
    staying the same and record the data in your
    journal.
  • Write a paragraph to describe your observations. 

Pressure Volume Temper-ature
Increase, decrease, same
Gas Law
9
Station 5 Balloon and the Flask (or Hot Air
Ballooning)
  • Instructions
  • Pull a balloon over a flask with 5ml of water in
    it.
  • Place on a hot plate and observe the balloon.
  • Determine whether or not the pressure, volume,
    and temperature is increasing, decreasing or
    staying the same and record the data in your
    journal.
  • Write a paragraph to describe your observations.

Pressure Volume Temper-ature
Increase, decrease, same
Gas Law
10
Station 6 Balloon and the Flask (or Hot Air
Ballooning)
  • Instructions
  • Pull a balloon over a flask with 5ml of water in
    it.
  • Place in an ice bath and observe the balloon.
  • Determine whether or not the pressure, volume,
    and temperature is increasing, decreasing or
    staying the same and record the data in your
    journal.
  • Write a paragraph to describe your observations.

Pressure Volume Temper-ature
Increase, decrease, same
Gas Law
11
Station 7  Super Duster Office Buster
  • Instructions
  • Wrap your hand around one of the duster cans. 
    Make sure your palm is in complete contact with
    the can. Now, depress the nozzle.
  • Determine whether or not the pressure, volume,
    and temperature is increasing, decreasing or
    staying the same and record the data in your
    journal.
  • Write a paragraph to describe your observations.

Pressure Volume Temper-ature
Increase, decrease, same
Gas Law
12
Station 8 Balloon in a bottle!
  • Instructions
  • Start the paper on fire and carefully drop it
    into the flask. Quickly place the water balloon
    on top and observe. Use the straw to help remove
    the balloon.
  • Determine whether or not the pressure, volume,
    and temperature is increasing, decreasing or
    staying the same and record the data in your
    journal.
  • Write a paragraph to describe your observations.

Pressure Volume Temper-ature
Increase, decrease, same
Gas Law
13
Rising Water
  • Why did the green water rise in the graduated
    cylinder after the candle flame went out?
  • What happened to the temp inside the graduated
    cylinder because of the flame?
  • How did that affect the volume?
  • After the flame went out the temp ____?
  • The volume of the gas in the graduated cylinder
    ______?
  • This resulted in a decrease in the ________
    inside the graduated cylinder.
  • The pressure (atmospheric) on the water in the
    pan was greater and that forced the water to rise
    in the cylinder.

14
Example Test Questions
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