WebAnswer (1 of 3): My theory (see details in my profile in Quora) can explain it simply: Electron (e-) and positron (e+) are energy excitations in the pressure field of a universal ideal gas (see classical Kinetic Theory) in the form of extremely thin ring-shaped cyclone the e- (and anticyclone th... WebMar 10, 2024 · When photons are moving from a region of strong gravity to a region of weaker gravity, they will lose energy, which lowers their frequencies to the redder end of …
Interaction of Radiation with Matter - Sprawls
WebAug 18, 2024 · Unlike photons, electrons interact with each other constantly, so it’s easier to imagine they could be used to create some sort of structure. The problem is electrons repel each other and ... WebOct 8, 2024 · Photons have neither negative nor positive charge. They are not matter and have no mass. They travel the speed of light when in a vacuum like in outer space (which is not a complete vacuum, really). But they can travel much slower when traveling through a medium like water or even air. Photons and electrons interact to create flows of … 40石
Spectroscopy: Interaction of light and matter - Khan …
WebMar 20, 2024 · Photons and electrons one-on-one. The dynamics of electrons changes ever so slightly on each interaction with a photon. Physicists have now measured such … WebFeb 22, 2024 · My question is rather the other way around. Photons interact with electrically charged particles (e.g. electrons) due to being in part propagating electric fields. Does the same apply to the magnetic aspect. Do photons interact with particles with a magnetic moment due to being in part propagating magnetic fields? WebApr 1, 2024 · Because both photons and electrons interact with an atom’s electron shell, they are very good at seeing heavy elements, which have a lot of electrons; think of a dental X-ray. But while photons and electrons scatter off an atom’s electron cloud, neutrons penetrate to an atom’s nucleus and give you very different information. 40砲