What do you mean by phase of light? Why would light change phase?Bob Dylan said:If a photon doesn't travel through time (if there is no internal change by one definition of time) then I would expect a photon not to have a changing phase as that seems to count as a timeable internal change. Is this the case?
You mean it's probability and wave function. That's not how the wave function works. It's not a phase changing. It's a probability.Bob Dylan said:I mean the phase in the quantum sense of a wavefunction.
There is no coherent definition of "a photon's perspective", and from any other perspective a photon clearly does travel through time.Bob Dylan said:If a photon doesn't travel through time (if there is no internal change by one definition of time)
I'm not at all sure this question is clearly posed. Again, properties of a photon clearly can evolve with time (single-photon diffraction patterns look like classical ones, and vary with distance - and hence flight time - from the diffracting object).Bob Dylan said:I mean the phase in the quantum sense of a wavefunction.
I challenge you to find a non popsci source that says anything of the sort.Bob Dylan said:When we say that a particle doesn't pass through time
A particle moving a distance ##\Delta x## in time ##\Delta t## has speed ##\Delta x/\Delta t##. In the example you give, that is 1. Whether or not ##c=1## depends on your choice of units. Since you are saying that this particle is a photon, you are apparently using such a scheme.Bob Dylan said:For example if a photon had a change in time of one and a change in x of one, then would it be traveling at C
You don't use the interval to measure speed.Bob Dylan said:because in Minowski Spacetime the time is negative to space and therefore cancels to 0.
Is your problem just not realising that if you pick units where c=1 then you can drop the c?Bob Dylan said:The reason I add that is that ultimately I am trying to understand why change in space seems to equate to change in time in the Dirac equation.
I don't know enough quantum field theory to comment - others here do. I will just observe that you seem to be struggling with special relativity here, and you will need to be confident with that before you can follow relativistic field theory. Also, if you are trying to use a theory to understand something that theory says is impossible you are bound to end up with problems.Bob Dylan said:It is confusing to me because if there were theoreticaly (though impossibly) a massless fermion in the Dirac equation then seemingly it would be traveling at C and through time and phase by my clearly flawed understanding.
Anybody who says this is talking nonsenseBob Dylan said:When we say that a particle doesn't pass through time
It is not defined. That is why it is nonsense.Bob Dylan said:Im confused about how that's being defined
Light travels in a straight line and maintains its speed, but it can also be affected by factors such as gravity and other obstacles.
No, light does not change phases during travel. It remains in the same phase (i.e. visible light, infrared, ultraviolet, etc.) regardless of its speed or direction of travel.
No, the color of light does not change during travel. The color of light is determined by its wavelength, which remains constant even during travel.
Light can travel through different mediums, such as air, water, or glass, by either passing straight through or being refracted (bent) as it enters and exits the medium. The speed of light can also change depending on the medium it is traveling through.
Yes, according to Einstein's theory of relativity, the speed of light is constant for all observers, regardless of their relative velocities. This means that time dilation can occur for objects traveling at high speeds, but the speed of light itself is not affected by this phenomenon.