What does a light particle see?

In summary, time dilation happens for any object moving at speed c, but an infinity would have to pass for a light particle to move any distance.
  • #1
Coldie
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Here's something I've always wondered about but never got around to asking anyone. We know that when an object moves very close to the speed of light, outside events from the perspective of the object begin to occur faster and faster, correct? So for every foot that such an object travels, a certain amount of time will pass in the world around it, that amount of time increasing to infinity the closer the object gets to the speed of light, right? So, with this being said, doesn't that mean that an infinity would have to pass in order for a light particle to move any distance? Do we know what a light particle sees while it's moving?
 
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  • #2
When an object moves very close to the speed of light, or in the case of the photon => at the speed of light, for it time does not exist at all because all of its velocity is concentrated in the spatial dimension at 3x10^8 m/s.
 
  • #3
Coldie said:
Here's something I've always wondered about but never got around to asking anyone. We know that when an object moves very close to the speed of light, outside events from the perspective of the object begin to occur faster and faster, correct?

No, this is incorrect.

If A is moving with respect to B, B will see A's clock being slower. However, A will ALSO see B's clock being slower. There is nothing special about A or B's reference frame. If one sees one's clock slower, while the other sees a clock faster, then there's an asymmetry with this scenario and you might have a preferred frame.

So your assumption that "... from the perspective of the object begin to occur faster and faster..." is incorrect. That object will STILL see time dilation in other inertial frames, the same way other frames will see time dilation in that object's frame.

Zz.
 
  • #5
what does a light particfle see

Coldie said:
Here's something I've always wondered about but never got around to asking anyone. We know that when an object moves very close to the speed of light, outside events from the perspective of the object begin to occur faster and faster, correct? So for every foot that such an object travels, a certain amount of time will pass in the world around it, that amount of time increasing to infinity the closer the object gets to the speed of light, right? So, with this being said, doesn't that mean that an infinity would have to pass in order for a light particle to move any distance? Do we know what a light particle sees while it's moving?

In the title of the therad I see the term "see". In the statement of the problem that term is not present. Taking into account what physicists mean by "see" the development of the iodea seems interesting.
 
  • #6
I'd second Robphy's recommendation to read the previous threads.

The very short version is that it is an anthropomorphic fallacy to think of photons as experiencing "time".

While it's wrong to talk of photons experiencing "time", wrong because it's self contradictory, one can make a good case for photons having a coordinate system in which they are at rest. This sort of coordinate system typically has two null coordinates and two space-like coordinates.

The coordinate along which a photon travels will be, by definition, a null coordinate.

A null coordinate is not timelike - nor is it spacelike. So we have a mathematical description of what it is that photons "experience" - that is a null coordinate. And we have a word. But we can't anthropormophize this concept, because photons aren't like us, and we aren't like photons, and it is wrong to ignore the difference.
 
  • #7
Thanks for the links guys, they answered my question completely!
 
  • #8
pervect said:
I'd second Robphy's recommendation to read the previous threads.

Thanks... but that wasn't me.
 
  • #9
My first reactions was "photons don't have eyes!" My second was "hey, even if a photon had eyes, it couldn't see- it IS light so can't SEE light!"

But I take it the key phrase is "So, with this being said, doesn't that mean that an infinity would have to pass in order for a light particle to move any distance?"

Well, no, a light particle would not move in its own frame of reference. But then nothing moves in its own frame of reference! Any object is, by definition, always at the origin in its own frame of reference.

Perhaps what you are looking for is this: time does not change at all in a frame of reference moving at speed c with respect to any other. Of course, that is only true of a photon. Rather than talking about what a photon sees, the point is that a photon is literally in "the eternal now"!
 
  • #10
Further to HallsofIvy's comment, I would just like to emphasise that photons do not have a frame of reference. A particle's frame of reference is defined as a reference frame where the particle is at rest; however, since c is invariant from any inertial reference frame, it is not possible to define a frame of reference where the photon is at rest, hence photons do not have a reference frame.
 

1. What is a light particle?

A light particle, also known as a photon, is a fundamental unit of light energy that behaves as both a particle and a wave.

2. How does a light particle "see"?

Light particles do not have eyes or a visual system like humans do. They do not "see" in the traditional sense, but rather interact with their surroundings through the process of reflection and absorption.

3. Can light particles see objects?

Light particles can interact with objects by reflecting off of them and allowing us to see them. However, they do not have the ability to perceive objects in the same way that humans do.

4. Do light particles have color vision?

Light particles do not have color vision in the way that humans do. They do not see specific colors, but rather interact with different wavelengths of light to create the colors that we see.

5. How do light particles interact with each other?

Light particles can interact with each other through processes such as scattering and absorption. When light particles collide with each other, they can interfere with each other's paths and change direction.

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