When a photon undergoes transformation:
The incident photon hits the mirror's surface at the speed of light (c) and its speed is reduced upon impact.
The electron absorbs the photon, converting its energy, leading to absorption loss and subsequent remission.
This absorption and re-emission process repeats, resulting in accumulated absorption loss.
This leads to infinitesimal changes in energy, frequency, and time delay.
The re-emitted photon has less energy than the incident photon at c.
However, relativistic reflection overlooks this phenomenon and assumes the photon maintains a constant speed of c throughout the reflection process.
Relativity does not consider photon energy but assumes constant speed, even in dense transparent mediums where refraction occurs.
Relativity ignores photon interactions within external gravitational fields, failing to recognize that curved spacetime is not necessary for gravitational lensing.
There is doubt whether the presenter intended to suppress Newtonian mechanics and Planck's equations to protect the relativistic interpretation of time and curved spacetime.
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