Bully Metric

bully temp Bully Metric Development Area

1. REDIRECT [Original research]

Six base units are included in the Bully Metric system. Two variants of the apan are defined as spacetime units. Three variants of the nat are defined as transformation units. And the symbol "e" is used to represent elementary charge (the charge of a single electron).

The time apan (or timepan) (symbol ta) is by definition exactly 30.55 femtoseconds. The length apan (or lightpan or lengthpan) (symbol la) is by definition the distance light travels in vacuum in 30.55 femtoseconds.

The Bully Metric time unit
The Bully Metric length unit

The infonat (natural unit of entropy) (symbol En) is defined such that for an ideal gas in a given macrostate, the entropy of the gas divided by the natural logarithm of the number of real microstates would be equivalent to one infonat.

The rapinat (natural unit of rapidity) (symbol Rn) is defined such that an object with a standard gravitational parameter equal to the speed of light in vacuum cubed multiplied by 30.55 femtoseconds, will have a gravitational mass of one rapinat timepan. The dwarf planet Pluto has a gravitational mass of roughly one rapinat timepan. Earth's moon has a gravitational mass of approximately six rapinat timepan. It would take roughly six Pluto sized objects smashed together to build something the size of the moon. A few example masses are shown in Table 1.

The actionat (natural unit of action) (symbol An), and elementary charge (symbol e), are defined such that if a Josephson Junction were exposed to microwave radiation of frequency 2 / 30.55 picoseconds (≈ 65.4664484 gigahertz), then the junction would form equidistant Shapiro steps with separation of 2π actionats per kilo-time-apan electron. Also,the quantum Hall effect will have resistance steps of multiples of 2π actionats per electron squared. A few example rest energies are listed in Table2.

ta = 30.55 femtoseconds (exact)

la = c × 30.55 femtoseconds (exact)
   = 9.1586595919 micrometers (exact)

En = 1.380649 x 10-23 joule / kelvin (exact)

Rn = (c3 / G) (exact)
   ≈ 4.0370 × 1035 kilogram / second (approximate)

An = 4 / (2π × KJ2 × RJ)  (exact)
   = 1.05457182 × 10-34 joule second (approximate)

e = 2 / (KJ × RJ) (exact)
  = 1.60217663 × 10-19 coulombs (approximate)

The above definitions ensure normalization of the speed of light (c), Newton's gravitational constant (G), the Boltzmann constant (k_B), the reduced Planck constant (ħ), and the elementary charge (e):

${\displaystyle c=1.0\,{\frac {la}{ta}}}$ (exact)

${\displaystyle G=1.0\,{\frac {{la}^{3}}{Rn\,ta^{3}}}}$ (exact)

${\displaystyle k_{B}=1.0\,En}$ (exact)

${\displaystyle \hbar =1.0\,An}$ (exact)

${\displaystyle elementary\,charge=1.0\,e}$ (exact)

The Bohr Atomic Model using Bully Metric units