Breadcrumb
2B30.70 - Vacuum Cannon

Code Number: 2B30.70
Demo Title: Vacuum Cannon
Condition: Excellent
Principle: Air Pressure, Vacuum
Area of Study: Fluids
Equipment:
Vacuum Cannon, Vacuum Pump, 40mm Ping-Pong Balls, 3-M Packing Tape That is 3 Inches Wide, and Pop Can Holder with Empty Pop Cans.
Procedure:
We have three different length vacuum cannons. They are 5 feet, 7.5 feet, and 10 feet in length. Choose the one that best fits your classroom.
Place the vacuum cannon on the table and clamp the pop can holder directly in front of the cannon muzzle. Place a 40mm Ping-Pong ball into the muzzle and roll it all the way down to the stop provided by the vacuum inlet. Place 3-M packing tape onto each end of the cannon taking care to insure that the tape is flat so that it doesn't have any air leaks. Fold an appreciable amount of tape over the ends of the cannon. This will ensure that premature failure of the vacuum seal does not take place when pumping down the cannon. Pump the air out of the cannon with the vacuum pump. This process may be monitored using the attached vacuum gauge on the cannon. When the desired vacuum is reached, shut the valve on the cannon and turn off the vacuum pump. Using a sharp object, puncture the tape at the rear end of the cannon (the end closest to the vacuum connection, gauge, and valve).
Warning: When the tape is punctured a very large noise is produced.
The Ping-Pong ball will be driven out the other end of the cannon by the inrushing air and will puncture several soda cans. These can then be taken out of the holder and passed around to the class.
Warning: The Ping-Pong ball can theoretically achieve muzzle velocities of 287 m/s.
References:
- Mark Denny, "Internal Ballistics of an Air Gun", TPT, Vol. 49, #2, Feb. 2011, p. 81.
- Yasuo Ogawara, "Plastic Syringe Vacuum Cannon", TPT, Vol. 47, #4, Apr. 2009, p. 252.
- Richard W. Peterson, Benjamin N. Pulford, and Keith R. Stein, "The Ping-Pong Cannon: A Closer Look", TPT, Vol. 43, #1, Jan. 2005, p. 22.
- John Cockman, "Improved Vacuum Bazooka", TPT, Vol. 41, #4, Apr. 2003, p. 246.
- Z. J. Rohrbach, T. R. Bureshm, and M. J. Madsen, "Modeling the Exit Velocity of a Compressed Air Cannon", AJP, Vol. 80, #1, Jan. 2012, p. 24.
- G. Olson, R. Peterson, B. Pulford, M. Seaberg, K. Stein, C. Stetler, and R. Weber, "The Role of Shock Waves in Expansion Tube Accelerators", AJP, Vol. 74, #12, Dec. 2006, p. 1071.
- Eric Ayers and Louis Buchholtz, "Analysis of the Vacuum Cannon", AJP, Vol. 72, #7, July 2004, p. 961.
- Dan Dubno, "Better Nuclear Power Through Ping Pong", Popular Mechanics, Vol. 194, #5, May 2017, p. 14.
- James Schadewald, "How to Build a Ping Pong Cannon", Popular Mechanics, Vol. 193, #7, July/Aug. 2016, p. 108.
- William Gurstelle, "I Defend my Backyard with a Bottle Bazooka", Popular Science, Vol. 288, #1, Jan/Feb 2016, p. 90.
- William Gurstelle, "Hurl Wiffle Balls At 50 MPH—With A Leaf Blower", Popular Science, Vol. 286, #9, Sept. 2014, p. 69.
- Richard E. Berg, "Demo Hints: Vacuum 'Bazooka'", PIRA, Vol. 3, #6, Oct. 1988, p. 4.
- Neil A. Downie, "12. Vacuum Railroad", Ink Sandwiches, Electric Worms and 37 Other Experiments for Saturday Science, p. 100 - 107.
- Hsu-Chang Lu and Paul Fratiello, "Ping Pong Ball Cannon - Ball Sizes", Tap-L Discussion, 08/03/2018.
- Dale Stille and Peter Bruecken, "McMaster Stuff", Tap-L Discussion, 11/16/2009.
- Zigmund J. Peacock and Richard Berg, "Vacuum Bazooka", Tap-L Discussion, 12/09/2005.
- Zigmund J. Peacock, "Vacuum Bazooka", Tap-L Discussion, 02/02/2004.