Speed Of Light and stimilation

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SUMMARY

The discussion centers on the behavior of light when emitted from a laser while traveling at relativistic speeds, specifically near the speed of light (c). Participants confirm that an observer moving at 99.9% the speed of light would perceive the laser beam traveling ahead at speed c, while an external observer would see both the observer and the laser beam moving at speed c. The key takeaway is that regardless of the observer's frame of reference, the speed of light remains constant at c, as established by Einstein's theory of relativity.

PREREQUISITES
  • Understanding of Einstein's theory of relativity
  • Familiarity with the concept of frames of reference
  • Basic knowledge of the speed of light (c)
  • Mathematical comprehension of relativistic velocity addition
NEXT STEPS
  • Explore Einstein's theory of special relativity in detail
  • Study the implications of relativistic speeds on time dilation
  • Learn about the mathematical formulation of relativistic velocity addition
  • Investigate experimental evidence supporting the constancy of the speed of light
USEFUL FOR

Physicists, students of physics, and anyone interested in the principles of relativity and the behavior of light in high-speed scenarios will benefit from this discussion.

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On a par with Einsteins "riding-along-on-a-lightbeam", if I was traveling at the front of a beam of light, and I shone a Laser in the direction of travel, will the Laserbeam work?

Do Laser's travel well?
 
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:confused: :confused: :confused:
i think :rolleyes: it would work perfectly well :approve: and if u could measure the speed of laser beam it would be traveling at c of course. :biggrin:
gurkha
 
gurkhawarhorse's point is that if you were "traveling at the front of a beam of light" and sent a beam of light from a laser (or flashlight for that matter), you would see it moving ahead of you at c, because, in your frame of reference you are stationary.

Someone in another frame of reference, however, would see you moving at the speed of light and see no light shining in front of you- he would see the light from your laser moving at the same speed as you and so not "shining in front of you".

I, personally, would feel a lot better about that if you were moving at 99.9% the speed of light, relative to the observer. In that case, again, you would see the light from your laser moving away from you with speed c. The observer, as you go flying by, would also see that light moving away from him at speed c, because everyone, in any frame of reference, sees light moving at speed c.

Specifically, if you have speed v (0.999c here but could be anything less than c) and you send a beam of light ahead of you, the observer, relative to whom you are moving at speed c would see the beam of light as having speed
[tex]\frac{v+c}{1+\frac{vc}{c^2}}=\frac{v+c}{1+\frac{v}{c}}=[/tex]
[tex]c\frac{v+c}{v+c}= c[/tex].
 

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