• Tb0n3@sh.itjust.works
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    1 year ago

    Does a photon actually accelerate? Sure seems like it always goes at light speed through whatever medium from its creation.

    • Vilian
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      1 year ago

      well, if it get reflected and change direction it going to be at light speed, so it can be interpreted (probably incorrectly lol) that it “accelerated instantly to the other direction after the reflection”?

      • Kogasa@programming.dev
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        1 year ago

        This is an interesting question. Instant acceleration is mathematically implausible, but I don’t know if there’s a better physical interpretation for what happens to a bouncing photon. I’m guessing this is one of those “less particle, more wave” situations where the instantaneous velocity of the photon is undefined.

        According to some random internet sources, reflection is the not-quite-instantaneous process of the photon being absorbed and then emitted by the electrons in the mirror.

          • Neato@kbin.social
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            1 year ago

            That’s light as an aggregate wave. Photons, actual light, always travel at c. What’s happening in a medium is the rapid absorption and readmission of photons. The probability of admission is based on structure of material causing things like lens or mirrors to work.

            You can think of it as the photons having to jump between platforms before the can continue running at c.

          • there1snospoon@ttrpg.network
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            1 year ago

            But doesn’t relativity explicitly state that c is the speed of light in a vacuum, and travelling through other mediums explicitly changes and is explained by relativity?

            I am 100% a layman and do not know the answer.

            • sushibowl@feddit.nl
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              1 year ago

              Not really no. Special relativity explains the relationship between space and time. General relativity expands on this to account for gravitation.

              One of the postulates (i.e. assumptions) of relativity is that the speed of light in vacuum is the same for all observers. But the theory doesn’t actually require any particular value for c, it only needs it to be constant. And it doesn’t explain the behavior of light in a medium at all.

              In fact, relativity doesn’t explain the mechanism by which light interacts at all, that is the domain of Quantum Electro Dynamics.

              • there1snospoon@ttrpg.network
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                1 year ago

                Wow that is so interesting. So am I understanding that relativity explains space, time and gravity’s interactions with one another, while quantum science explains interactions with much smaller objects like matter?

              • ziggurism@lemmy.world
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                1 year ago

                the speed of light expressed in units of distance per time, is a dimensionful quantity so it probably doesn’t mean anything to say some theory does or does not predict a value for it. The value is entirely determined by how big you choose your yardsticks and sundials to be, which is arbitrary convention.

                It is only meaningful to talk about theoretical predictions of the values of constants if they are dimensionless, like the fine structure constant.

                However relativity does suggest as a natural point of view that space and time are just orthogonal directions in a unified spacetime. In this point of view, relativity gives you the option of measuring your timelike and spacelike coordinates with the same yardstick (which you may still choose arbitrarily). And then relativity does predict its value. It’s 1. No units.

      • marcos@lemmy.world
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        1 year ago

        No, they don’t. They can get absorbed and re-emitted, and the space they are moving though can compress sideways. But they can’t make curves at all.

          • marcos@lemmy.world
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            1 year ago

            That’s basically all that refraction is. A dead giveaway is that light doesn’t move at the speed of light in them.

          • Neato@kbin.social
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            1 year ago

            Yes.

            Don’t think about individual photons. Think about billions of them with destructive and constructive interference. The probabilities of all the sitting l additive waves of light.