There are three variants of the apan defined within the Bully system of units. The time apan (symbol ta) is by definition exactly 30.55 picoseconds. The length apan (or light apan) (symbol la) is by definition the distance light travels in vacuum in 30.55 picoseconds. The gravitational mass apan (symbol ma) is by definition the mass an object would have if its standard gravitational parameter were equal to the speed of light in vacuum cubed, multiplied by 30.55 picoseconds.

ta = 30.55 picoseconds (exact)

la = c × 30.55 picoseconds (exact)
   = 9.1586595919 millimeters (exact)

ma = c3 × 30.55 picoseconds / G (exact)
   ≈ 12.3330 ronnagrams (approximate)

The above definitions ensure normalization of the speed of light and Newton's gravitational constant when using Bully units:

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

${\displaystyle G=1.0\frac{l{a}^3}{mat{a}^2}}$ (exact)

Planck units and the Bully Metric

The following table 1 was taken from the Wikipedia Planck units article:

, in that each Planck unit multiplied by 566.66 is approximately equal to the corresponding Bully unit multiplied by 10^-30. The relationship between Planck units and Bully units is illustrated in Table 1 below. The table uses the "quecto" (symbol "q") metric prefix with each Bully unit, where "q" means 10^-30. SI prefixes have the same meaning and conventions when used with apan variants as they have when used with standard SI units (see table in subsequent section for a complete list of prefixes).

Since c and G are normalized in the Bully system, this ensures that Bully units have a simple relationship with Planck's units, as illustrated in table 2 below:

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

${\displaystyle G=1.0\frac{l{a}^3}{mat{a}^2}}$ (exact)

The 'Bully Metric is an extremely efficient set of time and distance measurement units for representing earth's physical parameters. Bully units can efficiently represent the Earth's sidereal year and tropical year to eight digits; The Bully Metric can also efficiently represent four digit approximations for the Earth's radius (r ≈ 6371), Schwarzschild radius (R), standard gravitational parameter (μ = MG ≈ 3.984e14), and a typical gravitational acceleration on earth's surface (g ≈ 9.813 ).

$${\displaystyle 1SiderealYear}=1.033Eta=31,558,150s$$

$${\displaystyle 1TropicalYear}=(1.033-0.00004)Eta-2s=31,556,926s$$

$${\displaystyle r_{earth}\approx \frac{1Gla}{\sqrt{2\times 1.033}}=6371km}$$

$${\displaystyle R_{earth}\approx \frac{la}{1.033}\approx 8.866mm}$$

$${\displaystyle {\mu }_{earth}\approx \frac{1}{2\times 1.033}\frac{l{a}^3}{t{a}^2}\approx 398,400,000,000,000\frac{m^3}{s^2}}$$

$${\displaystyle g_{earth}\approx 1\frac{Ela}{Et{a}^2}\approx 9.813\frac{m}{s^2}}$$

The Bully Constants

There are a surprising number of physical constants that can be approximated using various algebraic combinations of the following four numbers (click here to learn more):

1.033
30.55
2
0.00004

Sidereal year

The number of seconds in the Earth's sidereal year can be approximated as:

$${\displaystyle 1SiderealYear}=1.033\times 30.55Ms=31,558,150s$$

Tropical year

The number of seconds in the Earth's tropical year can be approximated as:

$${\displaystyle 1TropicalYear}=((1.033-0.00004)\times 30.55Ms)-2s=31,556,926s$$

Great year

The number of tropical years in a Great Year can be approximated as:

$${\displaystyle 1GreatYear}\approx (\frac{1.033}{0.00004})TropicalYears=25,825TropicalYears$$

Earth's radius (r)

An approximate relationship of the speed of light to the Earth's radius (r):

$${\displaystyle r_{earth}\approx \frac{c\times 30.55ms}{\sqrt{2\times 1.033}}=6371km}$$

Earth's Schwarzschild radius (R)

An approximate relationship of the speed of light to the Earth's Schwarzschild radius (R):

$${\displaystyle R_{earth}=\frac{2\times G{M}_{earth}}{c^2}\approx \frac{c\times 30.55ps}{1.033}\approx 8.866mm}$$

Earth's standard gravitational parameter (μ = MG)

An approximate relationship of the speed of light to the Earth's standard gravitational parameter (μ = MG):

$${\displaystyle {\mu }_{earth}=G{M}_{earth}\approx \frac{c^3\times 30.55ps}{2\times 1.033}\approx 398,400,000,000,000\frac{m^3}{s^2}}$$

Earth's gravity (g)

A typical gravitational acceleration on earth's surface can be approximated as:

$${\displaystyle g_{earth}=\frac{{\mu }_{earth}}{{r_{earth}}^2}\approx \frac{c}{30.55Ms}\approx 9.813\frac{m}{s^2}}$$

Definition of the apan

The above approximations for earth's physical parameters can be further simplified by introducing new measurement units. The apan will be defined with two variants. The time apan (symbol ta) is by definition exactly 30.55 picoseconds. The length apan (or light apan) (symbol la) is by definition the distance light travels in vacuum in exactly 30.55 picoseconds.

SI prefixes will have the same meaning and conventions when used with the apan as the have when used with standard SI units (see table in subsequent section). For example:

One million ta = 1,000,000 ta = 1 mega time apan = 1 Mta = 30.55 μs
One million la = 1,000,000 la = 1 mega light apan = 1 Mla = 9.1586595919 km

Approximations for earth's physical parameters can be written in terms of the apan as follows:

Sidereal year

The number of seconds in the Earth's sidereal year can be approximated as:

$${\displaystyle 1SiderealYear}=1.033Eta=31,558,150s$$

Tropical year

The number of seconds in the Earth's tropical year can be approximated as:

$${\displaystyle 1TropicalYear}=(1.033-0.00004)Eta-2s=31,556,926s$$

Earth's radius (r)

An apan based approximation of Earth's radius (r):

$${\displaystyle r_{earth}\approx \frac{1Gla}{\sqrt{2\times 1.033}}=6371km}$$

Earth's Schwarzschild radius (R)

An apan based approximation of the Earth's Schwarzschild radius (R):

$${\displaystyle R_{earth}\approx \frac{la}{1.033}\approx 8.866mm}$$

Earth's standard gravitational parameter (μ = MG)

An apan based approximation of the Earth's standard gravitational parameter (μ = MG):

$${\displaystyle {\mu }_{earth}\approx \frac{1\frac{l{a}^3}{t{a}^2}}{2\times 1.033}\approx 398,400,000,000,000\frac{m^3}{s^2}}$$

Earth's gravity (g)

A typical gravitational acceleration on earth's surface can be approximated as:

$${\displaystyle g_{earth}=\frac{{\mu }_{earth}}{{r_{earth}}^2}\approx 1\frac{Ela}{Et{a}^2}\approx 9.813\frac{m}{s^2}}$$

The apan prefix table