The Stowe Unitary System

From: Paul Stowe (ps_at_acompletelyjunkaddress.net)
Date: 02/05/05 

Date: Sat, 05 Feb 2005 13:51:42 GMT

 For the first time I have been able to define all fundamental constants
 in terms of basic medium parameters, including the gravitational
 constant G. Further, G is, within this system, seamlessly integrated
 to all others, fitting into a unified system.

 The key to this system's definition is the realization that charge is
 fundamentally a result AND the measure of the compressibility of
 Maxwell's aether. See: http://www.mountainman.com.au/charge_ps.htm
 for futher details on this.

 I have posted an overview in the past and will repeat it here below.
 (If interested, do a Google Groups Search on the exact phrase "Stowe Units")

 Quantity SI Conversion Factor to (Stowe Units)

 Length meter (m) 1 meter(m)
 Mass Kilogram (kg) 1 Kilogram (kg)
 Time Second (sec) 1 second (sec)
 Force Newton (Nt) 1 kg-m/sec^2
 Energy Joules (J) 1 kg-m^2/sec^2
 Power Watts 1 kg-m^2/sec^3
 Action [h] (J-sec) 1 kg-m^2/sec
 Permitivitty [z] (Q^2/kg-m^3) 1 kg/m^3 {1}
 Permeability [u] (kg-m-sec^2/Q^2) 1 m-sec^2/kg {2}
 Charge [q] (Coulomb) 1 kg/sec
 Boltzmann's [k] (J/°K) 1 m-sec
 Current [I] (Amp) 1 kg/sec^2
 Electric Field [E] 1 m/sec
 Potential [V] (Voltage) 1 m^2/sec {3}
 Displacement [D] 1 kg/m^2-sec
 Resistance [R] (Ohms) 1 m^2-sec/kg
 Capacitance [C] 1 kg/m^2
 Magnetic Field [H] (Henries) 1 m^2
 Magnetic Flux [B] (Gauss) 1 (none)
 Inductance [L] 1 m^2-sec^2/kg
 Temperature [°K] (Kelvin) 1 kg-m/sec^3

 {1} - Medium density
 {2} - Medium modulus
 {3} - Medium Kinematic Viscosity

 The basic physical quantities in this system are the medium properties
 of, momentum quanta [ß], characteristic interaction length quanta [L],
 the root mean speed [c], and a mass attenuation coefficient [¿].

 Their values are,

 ß = ~5.154664E-27 kg-m/sec
 L = ~6.430917E-08 m
 ¿ = ~3.144609E-06 m^2/kg
 c = ~2.997925E+08 m/sec

 There are two dimensionless factors also. These are shared with the
 standard systems of measure as,

 á = ~7.297353E-03 (Fine Structure Constant)
 ƒ = ~1.001159E+00 (Electron Magnetic Anomaly)

 Now to the fumdamental constants. I'll now show that h, z, u, k, q, G
 easily fall out of the above.

                            h ~= 2ßL
                            q ~= 2ß/L
                            k ~= L^2/c
                            u ~= áL^3/ßc
                            z ~= ß/áL^3c
                            G ~= (áßc/2piL^3)¿^2
 
 Note rounding to six significant digits in the above numeric definitions
 can affect the results slightly.

 Paul Stowe

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