Calculation of the Masses of All Fundamental Elementary Particles with an Accuracy of Approx. 1%

Author(s)
Karl Otto Greulich

ABSTRACT

The masses of a l l fundamental elementary particles (those with a lifetime > 10-24 sec) can be calculated with an inaccuracy of approx. 1% using the equation m/melectron = N/2α where α is the coupling constant of quantum electrodynamics (also known as fine structure constant) (= 1/137.036), and N is an integer variable. This is the by far most accurate and most comprehensive approach to calculate the particle masses.

The masses of a l l fundamental elementary particles (those with a lifetime > 10-24 sec) can be calculated with an inaccuracy of approx. 1% using the equation m/melectron = N/2α where α is the coupling constant of quantum electrodynamics (also known as fine structure constant) (= 1/137.036), and N is an integer variable. This is the by far most accurate and most comprehensive approach to calculate the particle masses.

Cite this paper

nullK. Greulich, "Calculation of the Masses of All Fundamental Elementary Particles with an Accuracy of Approx. 1%,"*Journal of Modern Physics*, Vol. 1 No. 5, 2010, pp. 300-302. doi: 10.4236/jmp.2010.15042.

nullK. Greulich, "Calculation of the Masses of All Fundamental Elementary Particles with an Accuracy of Approx. 1%,"

References

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[2] U. L?ring, B. C. Metsch and H. R. Petry, “The Light- Baryon Spectrum in a Relativistic Quark Model with Instanton-Induced Quark Forces,” European Physical Journal A, Vol. 10, No. 4, April 2001, pp. 395-446.

[3] H. Forkel and E. Klempt, “Diquark Correlations in Baryon Spectroscopy and Holographic Qcd,” Physics Letters B, Vol. 679, No. 1, August 2009, pp. 77-80.

[4] E. Klempt, “Vom Ursprung der Masse (On the origin of mass),” Physik Journal, Vol. 9, 2010, pp. 31-37.

[5] K. O. Greulich, “An Empirical One—Parameter Equation for Elementary Particle Masses,” Verhandlungen der Deutschen Physikalischen Gesellschaft (Proceedings of the German Physical Society), March 2007, Gr 603.

[6] K. Bethge and U. Schr?der, “Elementarteilchen und ihre Wechselwirkungen (Elementary particles and their inter- actions),” Wiley VCH, Weinheim, 2006.

[7] A. G. Kyriakos, “On Calculation of Elementary Particles’ Masses,” arxiv.org/pdf/physics/0604063, 2006.

[1] S. Capstick and N. Isgur, “Baryons in a Relativized Quark Model with Chromodynamics,” Physical Review D, Vol. 34, No. 9, 1986, pp. 2809-2835.

[2] U. L?ring, B. C. Metsch and H. R. Petry, “The Light- Baryon Spectrum in a Relativistic Quark Model with Instanton-Induced Quark Forces,” European Physical Journal A, Vol. 10, No. 4, April 2001, pp. 395-446.

[3] H. Forkel and E. Klempt, “Diquark Correlations in Baryon Spectroscopy and Holographic Qcd,” Physics Letters B, Vol. 679, No. 1, August 2009, pp. 77-80.

[4] E. Klempt, “Vom Ursprung der Masse (On the origin of mass),” Physik Journal, Vol. 9, 2010, pp. 31-37.

[5] K. O. Greulich, “An Empirical One—Parameter Equation for Elementary Particle Masses,” Verhandlungen der Deutschen Physikalischen Gesellschaft (Proceedings of the German Physical Society), March 2007, Gr 603.

[6] K. Bethge and U. Schr?der, “Elementarteilchen und ihre Wechselwirkungen (Elementary particles and their inter- actions),” Wiley VCH, Weinheim, 2006.

[7] A. G. Kyriakos, “On Calculation of Elementary Particles’ Masses,” arxiv.org/pdf/physics/0604063, 2006.