Relationship between Mass and Wavelength (Elaraby equation)
Ali Elsayed Elaraby
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Abstract
In physics, El araby theory of wave and mass for short, is a scientific
theory regarding Relationship between Mass and Wavelength. the theory is based
on two postulates or two laws
1-
The rest energy is related
to the mass according to the celebrated Einstein equation: E=m*C2
2- Planck explained further that the respective definite unit, E, of energy should be proportional to the respective characteristic oscillation frequency ʋ of the hypothetical oscillator, and he expressed this with the constant of proportionality h : E= h*ʋ
El araby theory
Matter possesses the properties of particles and the properties of waves
by a certain amount that depends on El araby equation , so that the higher the
mass, the lower the wavelength and vice versa in the partial frame
Result
There is an inverse relationship between wavelength λ and mass m
and calculate the proportionality constant K from the theoretically measurements
References
1.
Albert Einstein (2001). Relativity: The Special and the General Theory (Reprint
of 1920 translation by Robert W. Lawson ed.). Routledge. p. 48. ISBN 978-0-415-25384-0.
2. Edwin F. Taylor & John Archibald Wheeler
(1992). Spacetime Physics: Introduction to Special Relativity. W. H. Freeman.
ISBN 978-0-7167-2327-1.
3. Kragh, H. (1999). Quantum Generations. A History
of Physics in the Twentieth Century. Princeton University Press. ISBN
978-0-691-01206-3
4. Kramm, Gerhard; Mölders, N. (2009).
"Planck's Blackbody Radiation Law: Presentation in Different Domains and
Determination of the Related Dimensional Constant". Journal of the
Calcutta Mathematical Society. 5 (1–2): 27–61. arXiv:0901.1863. Bibcode:2009arXiv0901.1863K.
5. Kuhn, T. S. (1978). Black–Body Theory and the
Quantum Discontinuity. Oxford University Press. ISBN 978-0-19-502383-1.