The free on-line Journal of Binary Mechanics is now available in an archive book in both paperback and eBook formats. These publications feature larger print size on 8.5"x11" pages and an improved index.
Original scientific papers document how a little known research lab won the century-long physics grand championship race to derive basic constants from first principles of a coherent, comprehensive theory -- binary mechanics. Learn how Binary Mechanics Lab (BML) won the greatest race in physics in 100 years starting with space-time-energy quantization, upgrading from partial-to-full quantum mechanics. BML did it; big-money losers such as CERN, FermiLab, etc, did not. The exciting conclusion: seemingly "over night", BML became the leading physics lab world-wide for fundamental physics breakthroughs. First-ever derived constants include electron rest mass me, vacuum light speed c, Planck's constant h, intrinsic electron and proton spin, elementary charge e, fractional electric charge and intrinsic electron magnetic moment.
References
[1] Keene, J. J. "Binary mechanics FAQ" JBinMech August, 2018.
© 2019 James J Keene
by James J Keene PhD
Journal of Binary Mechanics, 21st century physics with quantized space, time and energy
Sunday, January 6, 2019
Tuesday, January 1, 2019
JBinMech 2019
In 2019, the papers on the free, on-line JBinMech from 2010 to 2018 were published in an archive book "Journal of Binary Mechanics 2010-2018" [1]. As of this writing (May 24, 2021), this archive has been revised to include all the updates in the on-line version. Some authors may prefer to cite papers as chapters in the archive book rather than as internet links.
Binary Mechanics Lab (BML) also publishes videos on YouTube, Bitchute and Rumble.
Research reports recorded several significant advances:
1. In "Zero Kelvin particle composition" [2], Bit Function Analysis technology developed at BML was used to describe elementary particle composition at zero Kelvin where quanta (1-state bit loci) representing electromagnetic radiation or particle motion are absent.
2. With previous BML reports strongly suggesting that binary mechanics postulates achieve a unified treatment of both quantum and gravity-related effects, "Quantum gravity mechanisms" [3] presented further data analysis supporting a multi-factor approach to gravitational phenomenon.
3. "Electron energy homeostasis" [4] presented data analysis suggesting negative-feedback mechanisms appear to regulate electron particle energy content.
4. "Vacuum composition" [5] debunks the myth that perfect vacuum and almost all of the volume of a single atom are "empty space". Instead, the data suggest that "empty space" is literally teaming with energy quanta, even at zero Kelvin, at which about 88% or more of final state quanta was perfect vacuum energy content.
References
[1] Keene, J. J. "JBinMech 2010-2018" JBinMech January, 2019.
[2] Keene, J. J. "Zero Kelvin particle composition" JBinMech February, 2019.
[3] Keene, J. J. "Quantum gravity mechanisms" JBinMech March, 2019.
[4] Keene, J. J. "Electron energy homeostasis" JBinMech March, 2019.
[5] Keene, J. J. "Vacuum composition" JBinMech December, 2019.
© 2021 James J Keene
Binary Mechanics Lab (BML) also publishes videos on YouTube, Bitchute and Rumble.
Research reports recorded several significant advances:
1. In "Zero Kelvin particle composition" [2], Bit Function Analysis technology developed at BML was used to describe elementary particle composition at zero Kelvin where quanta (1-state bit loci) representing electromagnetic radiation or particle motion are absent.
2. With previous BML reports strongly suggesting that binary mechanics postulates achieve a unified treatment of both quantum and gravity-related effects, "Quantum gravity mechanisms" [3] presented further data analysis supporting a multi-factor approach to gravitational phenomenon.
3. "Electron energy homeostasis" [4] presented data analysis suggesting negative-feedback mechanisms appear to regulate electron particle energy content.
4. "Vacuum composition" [5] debunks the myth that perfect vacuum and almost all of the volume of a single atom are "empty space". Instead, the data suggest that "empty space" is literally teaming with energy quanta, even at zero Kelvin, at which about 88% or more of final state quanta was perfect vacuum energy content.
References
[1] Keene, J. J. "JBinMech 2010-2018" JBinMech January, 2019.
[2] Keene, J. J. "Zero Kelvin particle composition" JBinMech February, 2019.
[3] Keene, J. J. "Quantum gravity mechanisms" JBinMech March, 2019.
[4] Keene, J. J. "Electron energy homeostasis" JBinMech March, 2019.
[5] Keene, J. J. "Vacuum composition" JBinMech December, 2019.
© 2021 James J Keene
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