@PeroK and @vanhees71 Appreciate your responses, I will definitely dig into that topic further.
If we drop back to wave theory of light, is there a simple answer to my original example? Is it just the speed of light compared to rate of acceleration to determine what the wavelength/frequency of...
Right, but as long as we are using photons as the representation of light, then any charged particle being accelerated would produce a photon? Edit: or multiple photons
Would you be able to cite a source for this? My understanding is that a photon is a common representation of light. And when representing light with photons, then any EM wave would consist of photons.
I'm strictly interested in what the differences will be in light emitted between the cases in...
I understand that any accelerating charged particle will emit a photon. But I do not understand how the rate of acceleration relates to the photon that is emitted.
For example:
If a proton is falling to Earth in a vacuum at 9.8 m/s^2, then what are the characteristics of the photon that will be...
@PeroK Hmm so what are the light and dark spots that you would observe in the double slit experiment? Are those photons getting concentrated into certain places?
When two photons constructively interfere, what is resultant photon/waves' characteristics?
When we talk about physical waves like sound, the constructive interference results in their amplitudes essentially being added together. But with light, my understanding is that the amplitude of a...
This is the thing I most want to dig into. In what way do the shapes change? And is there also a difference between gas/liquid as there is with liquid/solid?
That is intuitive, thanks.
1. Do electron orbitals ever change in _shape_? Specifically, does a solid have the same orbital shapes as a liquid?
2. Are there any factors that would change the _size_ of electron orbitals?