Download Plenty Powerful Ping Pong Popper

Plenty Powerful Ping Pong
Popper
SCIENTIFIC
Combustion of Alcohols
Introduction
Demonstrate piezoelectricity while performing this exciting micro-scaled explosion!
Concepts
•Piezoelectricity
•Combustion
Background
Piezoelectricity, defined as the change from mechanical to electrical energy resulting from stress, is found in everyday items
such as watches, microphones, pressure gauges and grill lighters. Quartz, SiO2, is a perfect example of how piezoelectricity
works. Quartz is composed of silicon and oxygen atoms that are neatly arranged in rows throughout a crystal lattice. When
pressure is applied to a quartz crystal, the oxygen ions, which are negatively charged, move in relation to the positively
charged silicon atoms. The centers of positive and negative charges in the quartz crystal no longer cancel and a voltage
occurs.
The piezoelectric lighter given in this kit does not actually contain quartz. Instead, it contains a ceramic piece that has
been formed under an electric field which properly aligns the atoms during formation. When stressed, this ceramic piece
can generate between 13,000 and 15,000 volts! The igniter holds the ceramic piece in a small plastic case along with a steel
hammer that is attached to a spring mechanism. When the button of the igniter is pressed, the spring is compressed until it
reaches a point where it releases the hammer. The hammer then rapidly strikes the ceramic piece. Piezoelectricity is generated, runs through the wires of the circuit and creates a spark between the small gap in the wires.
In this demonstration, the piezoelectric igniter will be used to burn ethyl alcohol in a small enclosed space—a ping pong
popper. As the current enters into the popper and a spark forms, combustion of the ethyl alcohol–air mixture occurs. As the
ethyl alcohol–air mixture burns, a large amount of energy is released due to the formation of carbon dioxide and water molecules. The energy heats the carbon dioxide and water vapor molecules that are formed in the initial reaction and causes
the gases to expand. The expansion of the gases exerts a large amount of force on the side of the canister and lid. This force
pops the top off the canister and launches the lid through the air.
Materials
Piezoelectric igniter
Ethyl alcohol, 95%, 2 mL (~ 40 drops)
Ping pong popper assembly
Beral-type pipet
Ping pong ball
Safety Precautions
Be very careful when performing this demonstration. Ethyl alcohol is a flammable liquid and a dangerous fire risk. Do not use more than
2 mL of ethyl alcohol. Do not substitute a more volatile liquid; many are dangerously combustible. Do not ignite the alcohol without the
ping pong ball in place! Wear chemical splash goggles, chemical-resistant gloves, and a chemical-resistant apron. Please review current
Material Safety Data Sheets for additional safety, handling, and disposal information.
Procedure
1. Insert the “free” end of the lamp cord through the hole in the side of the ping pong popper approximately 1-inch deep.
2. Add 2 mL (~ 40 drops) of ethyl alcohol to the ping pong popper. Do NOT add more than 2 mL of alcohol to the canister!
3. Place a ping pong ball on the popper. Cup the popper in your hands and gently shake and warm. This will speed up the
© 2016 Flinn Scientific, Inc. All Rights Reserved.
Publication No. 91228
061616
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Plenty Powerful Ping Pong Popper continued
vaporization of the alcohol. Allow vapor to build up for a good 20 to 25 seconds.
4. Hold the popper in one hand and point it in a safe direction. Do not point the ball toward anyone! The ping pong ball can take off
in strange directions!
5. Warn students that this apparatus may make a loud noise and that they should cover their ears.
6. Depress the button and away the ping pong ball goes!
Disposal
Please consult your current Flinn Scientific Catalog/Reference Manual for general guidelines and specific procedures governing
the disposal of laboratory waste. The piezoelectric apparatus may be used again and again. Excess alcohol may be disposed of
according to Flinn Suggested Disposal Method #26b.
Tips
• A small flame may be present at the mouth of the popper after ignition. Extinguish the flame before repeating the
demonstration!
• Be sure not to point the popper toward anyone at the time of ignition.
• The ends of the wire should be clipped occasionally to refresh the copper leads.
• Do not upscale this demonstration! Excess ethyl alcohol in a large container would be very dangerous!
• The demonstration may not be able to be repeated immediately. If there is excess CO2 in the popper, there will be no
combustion. Allow the ping pong popper to ventilate before repeating this demonstration.
Connecting to the National Standards
This laboratory activity relates to the following National Science Education Standards (1996):
Unifying Concepts and Processes: Grades K–12
Evidence, models, and explanation
Form and function
Content Standards: Grades 5–8
Content Standard B: Physical Science, properties and changes of properties in matter, transfer of energy
Content Standards: Grades 9–12
Content Standard B: Physical Science, structure and properties of matter, chemical reactions, interactions of energy
and matter
Answers to Worksheet Questions
1. Describe what happened in this demonstration.
Ethyl alcohol was added to a “ping pong popper.” A piezolelectric igniter attached to the popper was initiated, and the ping pong ball
flew out of the popper with a loud bang.
2. Write a balanced chemical equation for the combustion of ethyl alcohol.
C2H6O(l) + 3O2(g) → 2CO2(g) + 3H2O(g)
3. What is piezoelectricity?
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Piezoelectricity is the change from mechanical energy to electrical energy that occurs as a result of a stress. Piezo­electricity often occurs
when some sort of pressure is applied to a material in which the ions are aligned a certain way. A forceful enough pressure causes the
electrical charge in the material to change, creating voltage. One common material used in piezoelectricity is quartz, which is found in
most watches.
© 2016 Flinn Scientific, Inc. All Rights Reserved.
Plenty Powerful Ping Pong Popper continued
Acknowledgment
Special thanks to retired teachers Walter Rohr and Lee Marek for providing this activity.
Flinn Scientific—Teaching Chemistry™ eLearning Video Series
A video of the Plenty Powerful Ping Pong Popper activity, presented by John Little, is available in Combustion of Alcohols, part of the
Flinn Scientific—Teaching Chemistry eLearning Video Series.
Materials for Plenty Powerful Ping Pong Popper are available from Flinn Scientific,
Inc.
Materials required to perform this activity are available in the Piezo Ping Pong Popper—Demonstration Kit available from Flinn
Scientific. Materials may also be purchased separately.
Catalog No.
AP6265
E0009
AP1721
Description
Piezo Ping Pong Popper—Demonstration Kit
Ethyl Alcohol, 95%, 500 mL
Beral Pipet, Graduated
Consult your Flinn Scientific Catalog/Reference Manual for current prices.
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© 2016 Flinn Scientific, Inc. All Rights Reserved.
Name: ________________________________________________
Plenty Powerful Ping Pong Popper
Demonstration Worksheet
Discussion Questions
1. Describe what happened in this demonstration.
2. Write a balanced chemical equation for the combustion of ethyl alcohol.
3. What is piezoelectricity?
4
© 2016 Flinn Scientific, Inc. All Rights Reserved.