Liquid Crystals

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 Code Number :   4A10.50

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.

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Condition :   Good   
Principle :   Temperature Sensitive Materials  
Area of Study :  Heat & Fluids  
Equipment :   Liquid Crystal Materials from Edmund Scientific, Liquid Crystal Postcard.
Procedure :   Pick out a liquid crystal sheet in the temperature range that you wish to use it.  For use with the fingers and hands you will need the liquid crystals that operate below 35 degrees centigrade.  

You can also use the liquid crystal sheets as heat flow indicators by gluing them onto pieces of metal or plastic.

You can also focus a Maglite onto one of the sheets of liquid crystal and see the color change where the heat from the flashlight strikes the crystal.
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   References

Jukka O, Mattila, "Laptop Art", TPT, Vol. 34, # 2, Feb. 1996, p. 78.

Thomas M. Ciferno, Renate J. Ondris-Crawford, Gregory P. Crawford, "Inexpensive Electrooptic Experiments on Liquid Crystal Displays", TPT, Vol. 33, # 2, Feb. 1995, p. 104.

Renate Ondris-Crawford, Gregory P. Crawford, and J. William Doane, "The Phase of the Future", TPT, Vol. 30, # 6, Sept. 1992, p. 332.

"Liquid Crystal Displays: Watches, Calculators and (soon) Cars", TPT, Vol. 21, # 7, Oct. 1983, p. 467.

Anthony J. Nicastro, "Demonstrations of Some Optical Properties of Liquid Crystals", TPT, Vol. 21, # 3, Mar. 1983, p. 181.

Carl H. Hayn, "Liquid Crystal Displays", TPT, Vol. 19, # 4, Apr. 1981, p. 256.

Mark Handschy, "More on Liquid Crystals", TPT, Vol. 19, # 6, Sept. 1981, p. 362.

P. Andrew Penz, "Hydro-Optic Effects in Liquid Crystals", TPT, Vol. 13, # 4, Apr. 1975, p. 199.

Gordon L. Johnson, "Sorry, Our Mistake", TPT, Vol. 13, # 7, Oct.. 1975, p. 448.

 

Thomas Moses, Brian Durall, Gregory Frankowiak, "Magnetic Birefringence in a Liquid Crystal: An Experiment for the Advanced Undergraduate Laboratory", AJP, Vol. 68, # 3, p. 248, March 2000.

 

 

H- 018:  Liquid Xtal-Galileo's Thermom,"  DICK and RAE Physics Demo Notebook.

 

Peter Palffy-Muhoray, "The Diverse World of Liquid Crystals", Physics Today, Sept. 2007, p. 54.



Mail Questions and Comments to:  Dale Stille