Chromatic Aberration

Image #2

Image #3

 

content.gif (1503 bytes)
 Code Number :   6A65.20   

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 :   Good  
Principle :   Spherical and Chromatic Aberration  
Area of Study :  Optics  
Equipment :   Optics Table, 30 cm focal length lens, 48 cm focal length lens, Slide Projector (Distant Light).
Procedure :   Chromatic Aberration - Use the slide projector as a distant collimated light source. Place the 30 or 48 cm lens in the optics rail and focus onto the paper screen. On one side of the focal point there will be a red ring at the outer edge of the image, and a blue ring on the other side of the focal point.  
conbot.gif (53 bytes)


   References

R.G. Jordan,  "Playing Around with Achromatic Pairs,"  TPT, Vol. 39, # 2, p. 102, Feb. 2001.

Ronald Edge and E. R. Jones, "Why Do Red and Blue Lines Move in Opposite Directions?", TPT, Vol. 22, # 7, Oct. 1984, p. 462.

 

Jay S. Huebner, David L. Gibbs, Jr., Phil Ryan, "Projecting Chromatic Aberrations", AJP, Vol. 69, # 9, p. 869, Sept. 2000.

Xiangxi Chen et al.,  "Computer-Assisted Teaching of Optics,"  AJP,  Vol. 55, # 12, p. 1129, December 1987.

 

Oj-9:  Freier and Anderson,  A Demonstration Handbook for Physics.

 

O-380:  "Color Filters and Carousel,"  DICK and RAE Physics Demo Notebook.

 

L-49:  Richard Manliffe Sutton, Demonstration Experiments in Physics.

 

Raymond Bruman, "Chromatic Aberration," Exploratorium Cookbook I, p. 27.1 - 27.5.

C. Harvey Palmer, "Experiment A9: Logitudinal Chromatic Aberration and Secondary Spectrum,"  Optics - Experiments and Demonstrations, John Hopkins Press, 1962.

"6, Chromatic Aberration", Experiments in Optics, Part 1, J. Klinger Scientific Apparatus Corp., Bulletin 101.



Mail Questions and Comments to:  Dale Stille