Does light continue to travel through space after its source is removed?

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SUMMARY

Light continues to travel through space even after its source is removed, as confirmed by the principles of electromagnetic radiation. This phenomenon is analogous to ripples in a pond, which propagate outward after the initial disturbance. Astronomers benefit from this property, observing stars as they appeared thousands of years ago, despite the stars potentially being extinguished. Advanced technology, such as high-speed cameras capable of capturing one trillion frames per second, allows for the visualization of light pulses, demonstrating the propagation of light waves.

PREREQUISITES
  • Understanding of electromagnetic radiation principles
  • Familiarity with the concept of far-field and near-field effects
  • Knowledge of astronomical observation techniques
  • Basic comprehension of high-speed imaging technology
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  • Research the principles of electromagnetic radiation in detail
  • Explore the differences between near-field and far-field propagation
  • Learn about astronomical observation methods and their implications
  • Investigate high-speed imaging technologies and their applications
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Astronomers, physicists, and anyone interested in the propagation of light and advanced imaging techniques will benefit from reading this discussion.

k9b4
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Does light continue to travel through space after its source is removed?
 
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Here's an easy but pretty good analogy: I throw a stone into a quiet pond. The ripples spread out in a circle, and they will keep on propagating long after the stone has sunk to the bottom and is no longer disturbing the surface of the water.
 
k9b4 said:
Does light continue to travel through space after its source is removed?
Fortunately for astronomers, it does. :cool:
 
It never looks back.
 
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Yet it does reflect.
 
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NascentOxygen said:
Yet it does reflect.
And it gives a wave as it goes past.
:D
 
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and if not going past, it gives a standing wave.
 
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  • #10
Yes it does!
so probably, when you are observing a star thousands of lightyears away, you see how it looked thousands of years ago.

That start could be fizzled up, and dead, and you don't even know
 
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  • #13
. . . . the same as the familiar sampling scope technique, which uses picosecond sample pulses to plot the voltage variation in a repeated waveform. Even more than that, he seems to be saying that the process is repeated many times, to achieve a sufficient exposure at each position of the pulse. because the actual energy admitted in a single fs sample is so incredibly low. Fair dooz. It's still pretty clever and produces an interesting insight into the progress of the light through (and also back through) that bottle.
 

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