Refraction - Laser and Tank

 


 

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 Code Number :   6A42.20  

Disclaimer:

Reprinted by permission of Dick Berg, University of Maryland, for use on this website.

The demonstrations contained and referenced herein are listed for the purposes of cataloging and describing physics demonstrations which should be conducted only under the direction of a trained instructional support professional or physicist. These demonstrations are not presented for the purpose of being conducted by persons unconnected to this Facility and/or persons not consulting with or being supervised by the recognized instructional support professional or physicist and his/her staff. The University is responsible only for those demonstrations carried out using its own equipment using established safety and scheduling policies, and bears no responsibility for those choosing to use this source material for their own purposes. All demonstrations described and contained herein are public domain, and can also be found in reference materials in libraries, bookstores, and electronic sources.

Further information regarding legal liability in use of demonstrations and labs will be found on the web site Injuries in School/College Laboratories in USA.

The University of Iowa Disclaimers:  University of Iowa Disclaimer All Rights Reserved..
Condition :   Excellent   
Principle :   Refraction of Light Waves 
Area of Study :  Optics  
Equipment :   Fish tank with water, Fluorescein dye (Water   Soluble), Helium-neon laser (5 mw), Green laser pointers, Pine-Sol, green fluorescent dye.

  
Procedure :   Using the laser you may demonstrate total internal reflection and by using the aerosol haze spray or water mist to make the laser beam visible in air you may demonstrate index of refraction properties.  

CAUTION:  These are high power lasers.  Extreme care must be taken to insure that they are NEVER pointed at the audience, or more likely, impact the eyes of the lecturer.

 

The usual solution for the fish tank is to put 2 tablespoons of "Pine-Sol" into the 40 gallons of water that the tank holds.  1/4 bottle of the green fluorescent dye can also be added to enhance the laser beam viewing.  This solution will work with both green and red lasers.

A solution that will work only for red lasers is to put 3 to 4 teaspoons of water soluble Fluorescein into the 40 gallons of water the tank holds. 

The above solutions will only need to be emptied from the tank if the water become dirty of collects too much chalk.  Otherwise, they will remain good for this demonstration for up to a decade.  

 

 
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   References

"Figuring Physics", TPT, Vol. 39, # 6, Sept. 2001, p. 344.

Ronald Newburgh, Wolfgang Rueckner, Joseph Peidle, and Douglass Goodale, "Using the Small-Angle Approximation to Measure the Index of Refraction of Water", TPT, Vol. 38, # 8, Nov. 2000, p. 478.

Alfred F. Leung and Simon George, "Simple Homemade Container for Measuring Refractive Index", TPT, Vol. 30, # 7, Oct. 1992, p. 438.

Alfred F. Leung, Simon George, and Robert Doebler, "Refractive Index of a Liquid Measured with a He-Ne Laser", TPT, Vol. 29, # 4, Apr. 1991, p. 226.

"Errata", TPT, Vol. 27, # 2, Feb. 1989, p. 110.

T. A. McMath, "Refraction - A Surface Effect", TPT, Vol. 27, # 3, Mar. 1989, p. 185.

"Figuring Physics", TPT, Vol. 25, # 3, Mar. 1987, p. 180.

Haym Kruglak,  "Swimming Pool Optics,"  TPT, Vol. 25, # 7, p. 440, (Oct. 1987).

P. M. Mejas, "Measurement of Water's Refractive Index", TPT, Vol. 25, # 3, Mar. 1987, p. 166.

"Errata", TPT, Vol. 25, # 9, Dec. 1987, p. 546.

Samuel Derman, "How the World Looks Underwater - A Demonstration for Nonswimmers", TPT, Vol. 20, # 7, Oct. 1982, p. 474 - 475.

Philip DiLavore, "Reflection and Refraction at an Interface", TPT, Vol. 13, # 4, Apr. 1975, p. 247.

Nobuo Naba, "Demonstration of Refractive Index Measurement by a Laser", TPT, Vol. 11, # 4, Apr. 1973, p. 241. 

Ellis D. Noll, "Measuring the Index of Refraction of Liquids with a Laser", TPT, Vol. 11, # 5, May 1973, p. 307.

Steven Janke, "Laser and Refraction Again", TPT, Vol. 11, # 7, Oct. 1973, p. 388.

 

Edward Richard Van Keuren, "Refractive Index Measurement Using Total Internal Reflection", AJP, Vol. 73, # 7, July 2005, p. 611.

Thomas B. Greenslade, Jr., "Reflection and Refraction Apparatus (Photo)", AJP, Vol. 71, # 7, July 2003, p. 669.

Eric Stanley,  "Generation of Conical Beams of Light for Smoke-Chamber Demonstrations,"  AJP, p. 1185, Vol. 49, # 12, (December 1981).

 

Od-1:  Freier and Anderson,  A Demonstration Handbook for Physics.

 

O-035:  "Chalk Dust, Smoke Box & Cream,"  DICK and RAE Physics Demo Notebook.

O-305:  "Water Tank & Scattering Medium,"  DICK and RAE Physics Demo Notebook.

 



Mail Questions and Comments to:  Dale Stille