Question

20 experiment for air exert pressure

Answer 1

Materials needed:

                                Experiment I

                               Bionic Finger

             1.  One heavy rubber plunger (to unplug a sink).

             2.  A stool or chair with a smooth seat.

                                Experiment II

                              The Collapsing Can

             1.  One empty gallon (or 4-5 liter) can, or any other tin can

                 that can be closed off air-tight.

             2.  A hot plate or burner and tripod.

                                Experiment III

                            The Balloon In A Flask  

             1.  An Erlenmeyer flask (150-200 ml).

             2.  A round balloon with a large mouth (uninflated).

             3.  A hot plate or burner and stand.

Strategy:

                                Experiment I

                               Bionic Finger

     1.  Make a small hole in the plunger with a scissor's point.

     2.  Show the students the plunger and ask:  "What is under the plunger

         when I place it on the table?"  (anticipated answer: 'nothing').

     3.  Ask one of the students to come up and put his/her cheek close to the  

         hole in the plunger.

     4.  Push the plunger in: air rushes out and blows against the cheek!

         Air occupies space!

     5.  Show the students the plunger on top of a stool.

     6.  Tell them that you possess a bionic finger and that you can hold

         down the plunger against the stool with one finger.

     7.  Push down on the plunger and hold it down with one finger covering

         the hole (a wet finger will work better), and ask a student to come  

         up and pull the plunger up.

         The whole stool will stick to the plunger and be lifted!

                                Experiment II

                              The Collapsing Can    

     1.  Put about 20 ml of water in the can (just enough to cover the bottom)

         and heat it over the hot plate or burner.

     2.  Let the water boil vigorously for about 2 minutes (vapors should

         come out of the can).

     3.  Take the can with the boiling water off the heat (don't burn your

         fingers!) and immediately close off with the cap very tightly.

     4.  Let it stand upright on the table and cool off to room temperature,

         or, for faster results, cool off with wet towel.

                                Experiment III

                            The Balloon In A Flask  

     1.  Put a little water (about 20 ml) in the flask and heat it to a boil.

     2.  Let the water boil vigorously for at least one full minute.

     3.  Take the flask off the hot plate and immediately place the balloon  

         with the mouth over the flask's mouth.

     4.  Let cool slowly at room temperature (the balloon will be pushed

         inside out into the flask).

Performance Assessment:

                                Experiment I

   Have students collect items that operate on this principle:  suction cup  

darts, soap dishes, coat hooks, portable pencil sharpeners, dashboard cups, etc.  

Have students make comments or write poems about how they use "Air pressure in  

their lives."  

                                Experiment II

    Set up four work stations for students to be assigned to for an experiment  

using soda pop cans.  Fill each can with 5 ml of water and heat it over the hot  

plate or burner.  Let the water boil vigorously for about 2 minutes.  Using a  

pair of tongs take the pop can with the boiling water off the heat.  Use the  

tongs to grip the bottom of the pop can.  Invert the can in a pan of cold water.  

Explain what happen?  (The can popped, and crushed immediately.)  Why?  

                                Experiment III

    Have students divide a chart into two parts.  Label one side "Air pressure  

helps" and the other "Air pressure hinders."  Brainstorm ways in which air  

pressure helps people.   Record ideas on the chart.  Have students be on the  

lookout for instances of air pressure helping/hindering people.  Add these to  

the chart.  

Conclusions:

                              Bionic Finger

                             

    When holding the plunger down with one finger, the hole was covered and  

this prevented the air from coming back in under the plunger, causing a lower  

pressure under it.  A moist finger works better to plug the hole because the  

water acts as a seal.

   The force holding down the plunger is equal to the surface area of the  

plunger multiplied by 1 kg (about 75 kg for a plunger with a 10 cm diameter).  

                             The Collapsing Can        

    When the water vapor which pushed out the air (which took up the interior  

space of the can) after heating was allowed to cool, its volume was reduced by  

approximately 1000.  When the volume decreased inside the can, the outside  

pressure crushed the can.  

    The total force working on the outside of the can is the total of the can's  

surface area in cm2 multiplied by 1 kg.  

                            The Balloon In A Flask  

    By boiling the water in the flask, it was changed from the liquid state  

into the vapor state.  The cooling of the flask will slowly condense the water  

vapor and thus create a partial vacuum in the flask.  This will cause the  

balloon to be pushed in and the atmospheric air pressure will further blow up  

the balloon inside the flask.  

                               Acknowledgement

    I would like to thank Jim Effinger of the Apple Program for teachers, Ed  

Guzdziol my mentor, Elaine Granger my assistant, and of course Ken Schugg who  

made my demonstrations successful.