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Numeric Formula for the Masses of Baryons (Draft Version)
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In this paper, a numeric formula for the masses of composite particles made of three quarks is presented, which uses Discontinuous Quantum Numbers (DQN) and achieves an accuracy of at least 3 decimal places.Abstract:
A numeric formula for the masses of composite particles made of three quarks is presented. The formula, which uses “discontinuous” quantum numbers, predicts the masses of 13 baryons and one lepton (the tau particle), with an accuracy of, at least, 3 decimal places. The maximum accuracy of the formula is 5 decimal places. The formula suggests the existence of a general formula for the mass of all known particles, which is yet, to be discovered.read more
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Posted Content
Numeric Formula for the Masses of Baryons
TL;DR: In this article, a numeric formula for the masses of composite particles made of three quarks (baryons) is presented, which uses allowed quantum numbers, and predicts the mass of 16 baryons (including 2 baryon resonances) and one lepton.
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Book ChapterDOI
Fundamental Physical Constants
TL;DR: In this paper, the authors discuss the definition of fundamental constants and the reasons for choosing the specific set of constants for the 1986 adjustment, and summarize the input data included in this adjustment, the results of the analysis and the conclusions to be drawn from them.