MY PHYSICS THEORY, PART 322 -Wrong Model Of Electron Shells And Wrong Explanation Of Characteristic X-Rays
According to my theory and my formulas,
-The Photon That Removes The Innermost Electron Leaves No Electrons Behind To Fill That Gap
1-Forget these six accepted physics propositions for electrons in a multielectron atom: a)electrons are dimensionless point-particles b)electrons are identical particles in a multielectron atom c)electrons are moving particles located probabilistically around the atomic nucleus d)electrons are objects with a constant rest mass d)As the distance from the nucleus increases, electrons energy levels increase e)As the distance from the nuclesus increases, electrons gain more energy f)as the number of shells, each electron shell can take more electrons. All of these are wrong.
2-Each shell represents only a specific p-EMF. An electron doesn’t revolve around an atomic nucleus. The electron is a three-dimensional spherical, ring shaped intrinsic motion form structure that surrounds the nucleus. This motion form is perpetually cycling, it is not static.
3-The bond between nucleus and the electron is concentric and coaxial angular motion. In the normal conditions, The tangential speed of this movement is constant regardless of the radius of the p-electron is 6.28 times greater than the speed of light.
4-You cannot remove the smallest and last remaining electron from the atom without removing all the other larger electrons. If you remove the last electron, you turn the remaining characteristic light pulse source into a sequential wave source, in other words you make it free.
5-When you apply 7.09 eV and 16.16 eV to molybdenum, you liberate the first two electrons. Since you apply relatively low voltage, these two free electrons do not gain excessive speed. Therefore, angular momentum(h), wavelength, and wave speed changes depending on free electrons’ speeds and directions can be neglected. Thus, successive waves of these two free electrons will carry almost the same values in every direction and at every point, they can influence the smallest electron of molybdenum and the others to form smooth, isothropic spectral lines.
But when you apply 20000 volt to accelerate electrons for x ray production to shine on molybdenum, you will have removed all the electrons in the molybdenum except the smallest electron. And this smallest electron will emit a characteristic light pulse under the effects of consecutive waves from accelerated x ray electrons which are at near the speed of light. This characteristic light pulse line will have a value deviated from the normal values of the spectral lines, because effective points of consecutive waves will have different angular momentum, tangential velocity, wave velocity, wavelength values for each points depend on accelerated effective free EMF’s velocity, motion direction and orientation.
Metin Arıdaşır 04.07.2024
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