Erwin Schrödinger.
However, the wave-like behavior of his famous equation is actually a probability function that can be applied to any quantum state, not just position and not just for an electron.
Erwin Schrodinger ( 1887-1961)
quantam mechanics
An electron orbital describes the most probable region that an electron occupies outside the nucleus
the more slowly an electron moves the more its behavior is that of a particle with mass the more quickly an electron moves the more its behavior is that of a particle with mass
Light Emitting Diode
Electron motion is a perfect example of how quirky quantum science is. When not being observed, an electron acts like a wave of energy. When being observed, it acts like a particle. So scientists describe the location of an electron as a probability.
quantam mechanics
electron sea
hendrik antoon lorentz a dutch physiscist who won a nobel prize in1902 for developing the mathematical theory of the electron
Schrodinger wave equation
Electron confuguration.
I think you mean electron microscope.
The scientist who developed a mathematical theory of the electron and won a Nobel prize for it in 1902 was Hendrik A. Lorentz. He was a mathematician and physicist who contributed to the study of electromagnetism.
It has to do with something called the Schrodinger equation, which is a mathematical representation of what an electron will do in a nucleus. Basically, unless you can do fairly difficult differential equations, it's best to accept that they are. If you can, check out the Wikipedia page for the equation. It goes into far more detail than makes sense to do here.
The Electron
An electron orbital describes the most probable region that an electron occupies outside the nucleus
The electron is a fundamental particle wth the electrical charge -1.
nothing, its nothing at all