Several themes occur in some 26 papers in 2011, where consequences of binary mechanics (BM) postulates were examined.
1) Many physics sub-specialties were covered. The average physicist may be expert in terms of literature knowledge and research methods in only one, or at best a few, sub-specialties. BM is a comprehensive theory including both quantum and gravitation phenomena covering all sub-specialties, but nobody, including the author, is expert in them all.
2) Hence, many of the reports are pilot studies, initial probes in specialized areas such as absolute maximum temperature [5] [7], superconductivity [8], vacuum thresholds [12], gravity as derivative force [13] [23], thermodynamics [15], baryogenesis [18], dark matter [19] and black body and hydrogen spectrums [22]. Teams of specialists are appropriate to study these topics further.
3) A third theme was more detailed description of BM postulates and initial new findings: Lorentz force [1] (from 2010), BM spatial objects [2], the remarkable central baryon bit cycle [3], investigators embedded in BM space [4], an electromagnetic (EM) bit operation revision [6], the strong bit operation [9], quantized velocity [14], a physics glossary [17], EM plane waves derived from BM postulates [20], solved physics mysteries [21], a "law" of motion [24] and electron shape [25].
4) The Binary Mechanics Lab Simulator (BMLS) was continuously developed producing data in the research reports. BMLS can implement selected permutations of bit operations order for time evolution of the system state. In the research reports, several different orders were used over time. However, one and only one bit operations order can be physically correct, since each permutation produces slightly different results [16].
At present, SUVF is thought to be the correct bit operations order, where S is Scalar, U is unconditional, V is vector and F is strong. Where applicable, the data collection in papers using BMLS should be repeated with the SUVF order. The plan is to update selected research reports by adding new SUVF data in brackets, preserving the original reports for the record. Change in major results is not expected, although such updated results would be more appropriate for further quantitative analysis.
References
[1] Keene, J. J. "Lorentz force in binary mechanics" J. Bin. Mech. July, 2010.
[2] Keene, J. J. "Physical interpretation of binary mechanical space" J. Bin. Mech. February, 2011.
[3] Keene, J. J. "The central baryon bit cycle" J. Bin. Mech. March, 2011.
[4] Keene, J. J. "Captives in a binary mechanical universe" J. Bin. Mech. March, 2011.
[5] Keene, J. J. "Maximum temperature below half maximum bit density" J. Bin. Mech. March, 2011.
[6] Keene, J. J. "Electromagnetic bit operations revised" J. Bin. Mech. March, 2011.
[7] Keene, J. J. "Absolute maximum temperature" J. Bin. Mech. March, 2011.
[8] Keene, J. J. "Superconductivity in binary mechanics" J. Bin. Mech. March, 2011.
[9] Keene, J. J. "Strong operation disabled by inertia" J. Bin. Mech. March, 2011.
[10] Keene, J. J. "Emission power and wavelength vs temperature" J. Bin. Mech. March, 2011.
[11] Keene, J. J. "Binary mechanics simulator updated" J. Bin. Mech. March, 2011.
[12] Keene, J. J. "Vacuum thresholds" J. Bin. Mech. March, 2011.
[13] Keene, J. J. "Gravity looses primary force status" J. Bin. Mech. April, 2011.
[14] Keene, J. J. "Electron acceleration and quantized velocity" J. Bin. Mech. April, 2011.
[15] Keene, J. J. "Ideal gas law: limited density range" J. Bin. Mech. May, 2011.
[16] Keene, J. J. "Bit operations order" J. Bin. Mech. May, 2011.
[17] Keene, J. J. "Physics glossary" J. Bin. Mech. May, 2011.
[18] Keene, J. J. "Baryogenesis" J. Bin. Mech. May, 2011.
[19] Keene, J. J. "Dark matter and energy" J. Bin. Mech. May, 2011.
[20] Keene, J. J. "Quantized electromagnetism" J. Bin. Mech. May, 2011.
[21] Keene, J. J. "Solved physics mysteries" June, 2011.
[22] Keene, J. J. "Blackbody and hydrogen spectrums from binary mechanical postulates?" J. Bin. Mech. June, 2011.
[23] Keene, J. J. "Gravity increased by lunar surface temperature differential" J. Bin. Mech. August, 2011.
[24] Keene, J. J. "A law of motion" J. Bin. Mech. September, 2011.
[25] Keene, J. J. "Physics news: electron shape" J. Bin. Mech. September, 2011.
[26] Keene, J. J. "Physics news: faster than light" J. Bin. Mech. September, 2011.
© 2018 James J Keene
