While many in the physics community continued attempts to move "beyond" the Standard Model (SM), JBinMech articles in 2016 continued to undermine and replace it almost completely with its upgrade: binary mechanics (BM).
1) The bit function, BM upgrade to SM wave function usage, was shown to represent position and momentum. First, cooling a system to zero Kelvin resulted in zero particle motion [1]. Second, different randomly selected initial states produced different particle motion over time [3]. Third, use of the bit function to simulate a magnetic field produced predictable particle displacements [14].
2) General Relativity was further ransacked by
(a) demonstration that about half of the GRACE satellite pair "gravity" measurement variance was nothing more than ocean surface temperature [9], supporting BM predictions previously confirmed with lunar laser ranging (LLR) in 2011 and no doubt embarrassing the General Relativity believers among GRACE project designers and
(b) LIGO "gravitational wave" results were shown to be entirely consistent with BM predictions based on energy (1-state bit) density fluctuations [13]. Disclosure: Although almost everything NASA does confirms BM predictions, Binary Mechanics Lab (BML) has no formal relationship with NASA. Lesson: Theories of principal investigators can be a distraction; focus on their data.
3) BML Simulator (BMLS) software was improved by adding a batch mode allowing automation of multiple experiments in one user-initiated run [11] and a more user-friendly interface [12]. The "bit operations engine" in the BMLS is apparently the state-of-the-art in calculation of time-development of the state of any physical system.
4) BMLS software was used to demonstrate several phenomena: light speed measurement at zero Kelvin where random electromagnetic radiation (heat) was absent and hence, could not interfere with the measured signal transmission [2], standing waves in an electron gas in perfect vacuum [10] and matter creation [16] [17].
5) Further consequences of BM first principles were explored. Faster than light motion was analyzed due to previous observations that a small number of energy quanta typically arrived at the target sensor slightly before the main wavefront of the signal [4]. Demonstration that apparently all "weak force" particle interactions are completely accounted for by the unconditional bit operation [7]. The composition of SM particles including mesons and baryons enumerated in 1994 was discussed [6] [8].
6) BML joined other labs in producing self-promotional literature. A pop quiz challenged the reader to "spot the physics theory" [5]. Without space-time-energy quantization, SM math modelling every point using continuous space-time (e.g., real number position coordinates) requires belief in miracles, namely that an infinite number of infinitely small things exist in any arbitrary volume, where "things" are multiple field encoders and operater action devices [15]. And in defunct General Relativity, the "things" are inertial motion guidance devices. Of course, BML suggests that physicists leave the miracles to theologians.
References
[1] Keene, J. J. "Zero degrees Kelvin" J. Bin. Mech. January, 2016.
[2] Keene, J. J. "Light speed at zero Kelvin" J. Bin. Mech. January, 2016.
[3] Keene, J. J. "Particles in a box" J. Bin. Mech. January, 2016.
[4] Keene, J. J. "Faster than light" J. Bin. Mech. January, 2016.
[5] Keene, J. J. "Spot the physics theory" J. Bin. Mech. January, 2016.
[6] Keene, J. J. "Standard model particle composition" J. Bin. Mech. January, 2016.
[7] Keene, J. J. "Weak force boondoggle" J. Bin. Mech. January, 2016.
[8] Keene, J. J. "Meson and baryon composition" J. Bin. Mech. January, 2016.
[9] Keene, J. J. "GRACE: gravity surface temperature dependence" J. Bin. Mech. February, 2016.
[10] Keene, J. J. "Electron gas standing waves" J. Bin. Mech. February, 2016.
[11] Keene, J. J. "BML simulator batch mode" J. Bin. Mech. February, 2016.
[12] Keene, J. J. "BML simulator interface" J. Bin. Mech. March, 2016.
[13] Keene, J. J. "LIGO gravity wave mechanism" J. Bin. Mech. April, 2016.
[14] Keene, J. J. "Particle motion representation" J. Bin. Mech. May, 2016.
[15] Keene, J. J. "Quantization asymmetry" J. Bin. Mech. May, 2016.
[16] Keene, J. J. "Matter creation" J. Bin. Mech. May, 2016.
[17] Keene, J. J. "Matter creation sequel" J. Bin. Mech. May, 2016.
© 2018 James J Keene
