Electron-photon wavelength relation (equation) has been established and verified
------------------------------------------------ by Bingcheng Zhao
Many insightful and pondering professional people working in the area of electronics may often ask the practically important questions as following. (1) Since photons are emitting from electron, then “is there and what is the relation between electron and its emitting photon in wavelength?” (2) “What is the essential relation in wave nature between electron and its emitting photon?” (3) Can we calculate the wavelength of a photon after knowing the wavelength of the electron emitting the photon? (4) After knowing the wavelength of a photon, can we calculate the wavelength of the electron emitting the very photon? Those practically important questions have been answered in the newly established and verified electron-photon wavelength relation (equation) for the first time in the history of physics and science (P. 271 ~ 273, 3.6, Ch.3A, reference #1).
Electron-photon wavelength relation (equation): based on the impulse frequency of an electron is equal to the frequency of its emitting photon as revealed in electron-photon work-energy equation (P. 255 ~ 256, 3.4.2 c), reference #1), electron-photon wavelength equation is established for the first time in the history of quantum physics. Electron-photon wavelength equation expresses the relation between electron and its emitting photon in wavelength as that: the ratio of the wavelength of an electron to the wavelength of its emitting photon is equal to the ratio of the orbiting velocity v of the electron to the speed of light c in vacuum (P. 271 ~ 273, 3.6, Ch.3A, reference #1). The core equation of newly established electron-photon wavelength relation is on P. 271 as Eq (3-15) (3.6.1, Ch.3A, reference #1).
Electron-photon wavelength relation (equation) is verified by citing the result of the famous Davisson-Germer experiment: the value calculated with electron-photon wavelength equation is 0.167 nm vs. the measured value was 0.165 nm (P. 272 ~ 273, 3.6.2, Ch.3A, reference #1).
The fundamental implication of electron-photon wavelength relation (equation): it reveals and quantifies the essential relation in wave nature between electron and its emitting photon. The key to understanding of electron-photon wavelength relation (equation): the newly discovered OEPIEP law (= the law of orbiting electron periodic impulse emitting photons, P. 193 ~ 214, Ch.2A, reference #1), and the newly established electron-photon work-energy relation (equation) (P. 252 ~ 258, 3.4, Ch.3A, reference #1).
The highly attractive application of electron-photon wavelength relation (equation): at present, ordinary light bulb only converts about 5% of the input electrical energy into useful visible lights, whereas 95% is wasted as heat. The newly established electron-photon wavelength relation has the potential of guiding insightful scientists and/or entrepreneurs to develop lighting apparatuses that can convert 80% of the input electrical energy into useful visible lights. The market value of this sort of lighting apparatuses can be as high as billion and billion dollars.
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
Friday, March 26, 2010
Subscribe to:
Comments (Atom)