Difference between revisions of "Faster Than the Brighter-Light Beacon"
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==Abstract== | ==Abstract== | ||
− | <em>Phys. Educ.</em> 44. We analyse the motion of a spot of light projected onto a flat screen by a rotating source. We find that the motion of the spot has many interesting features such as spot splitting and superluminal effects. Our discussion is well suited for undergraduates and can be an interesting add-on in their curriculum, giving them new insights into the effects of kinematics. | + | <em>Phys. Educ.</em> 44. We analyse the motion of a spot of light projected onto a flat screen by a rotating source. We find that the motion of the spot has many interesting features such as spot splitting and superluminal effects. Our discussion is well suited for undergraduates and can be an interesting add-on in their curriculum, giving them new insights into the effects of kinematics. |
− | [[Category:Relativity]] | + | [[Category:Scientific Paper|faster brighter-light beacon]] |
+ | |||
+ | [[Category:Relativity|faster brighter-light beacon]] |
Latest revision as of 19:32, 1 January 2017
Scientific Paper | |
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Title | Faster Than the Brighter-Light Beacon |
Author(s) | Stephane Baune |
Keywords | relativity, superluminal, FTL, SLS, light beacon |
Published | 2009 |
Journal | None |
Volume | 44 |
Pages | 296-300 |
Abstract
Phys. Educ. 44. We analyse the motion of a spot of light projected onto a flat screen by a rotating source. We find that the motion of the spot has many interesting features such as spot splitting and superluminal effects. Our discussion is well suited for undergraduates and can be an interesting add-on in their curriculum, giving them new insights into the effects of kinematics.