The application of electron-photon momentum relation in electrical engineering

The crucial electron-photon momentum relation (equation) has been established and verified
-------------------------------------------------- by Bingcheng Zhao

Many insightful and pondering professional people working in the area of electrical engineering may often ask the crucially important questions as following. (1) Since photons are emitting from electron, “is the momentum of photons from the electron emitting them?” (2) Since photons are emitting from electron, “is there and what is the relation in momentum between electron and its emitting photon?” (3) Why the current method that calculates the momentum of photons, which is P = E/c = h/wavelength, turns out (has been proven) to be clearly and undeniably wrong (P. 262 ~ 271, 3.5.3, Ch.3A, reference #1)? Those crucially important questions have been answered in the newly established and verified electron-photon momentum relation (equation) for the first time in the history of physics and science (P. 258 ~ 271, 3.5, Ch.3A, reference #1).

Electron-photon momentum relation (equation): electron-photon momentum equation is established for the first time in the history of quantum physics by applying momentum conservation law to OEPIEP law*. (*Note: OEPIEP law = the law of orbiting electron periodic impulse emitting photons, P. 193 ~ 214, Ch.2A, reference #1). The equation expresses the relation in momentum between electron and its emitting photon as that: the momentum of a photon is equal to the momentum change of the electron emitting that photon over its one complete impulse period (in both magnitude and direction), and the momentum of a photon is equal to the orbiting momentum of the electron emitting that photon (in magnitude) (P. 258 ~ 271, 3.5, Ch.3A, reference #1). The newly established electron-photon momentum equation is on P. 259 as Eq (3-11) (3.5.1, Ch.3A, reference #1).

Electron-photon momentum relation is verified by citing the data of the famous Davisson-Germer experiment, and it agrees experimental result very well (P. 272 ~ 273, reference #1).

The crucially profound implications of electron-photon momentum relation (equation): (1) revealing the mechanism thus identifies the essence of the momentum of photons for the first time in the history of physics and science (P. 259, reference #1). (2) Identifying that the source of the momentum of photons is the momentum of the very electron emitting these photons (P. 260, reference #1). (3) Showing the vital uniqueness in the momentum of photons: photons are tiny discrete energy droplets that are emitted from electrons at the moments when electrons are instantly at the speed of light, instead of photons themselves being accelerated up to the speed of light from a lower velocity, thus being uniquely different from the momentum of other ordinary objects (P. 260, reference #1).

The application of electron-photon momentum relation (equation): after knowing the frequency or wavelength of a photon, then obtain the orbiting velocity v of the electron equivalently emitting that photon [Eq (3-13), P. 261, reference #1], then obtain the orbiting momentum of electron emitting the photon [Eq (3-11), P. 259, reference #1], then obtain the momentum of the photon [Eq (3-11), P. 259, reference #1].

Reference #1: 2009, Bingcheng Zhao, From Postulate-Based Modern Physics to Mechanism-Revealed Physics [Vol. 1(1/2)], ISBN: 978-1-4357-4913-9.
Reference #2: 2009, Bingcheng Zhao, From Postulate-Based Modern Physics to Mechanism-Revealed Physics [Vol. 2(2/2)], ISBN: 978-1-4357-5033-3.

Ph.D., Bingcheng Zhao,
The author of “From Postulate-Based Modern Physics to Mechanism-Revealed Physics”
1401 NE Merman Dr. Apt. 703, Pullman, WA 99163 USA.
Email: bingcheng.zhao@gmail.com