## Defined by the electron.

July 14, 2011 at 2:03 am | Posted in Questions, Uncategorized | 2 Comments**Definitions
**a=acceleration

c=speed of light

E=energy

d=diameter

D=Density

e=electron

f=frequency

h=planks constant

m=mass

r=radius

R=rate of expansion

v=velocity

V=volume

t=time

λ=wavelength

1_FPl=1Fundamental Particle length

**Defined by the electron**

As an electron (e) has a radius(r_e) and a diameter equal to two times the electron radius, (d_e=2*r_e) and a volume (V_e) then an electrons volume is: V_e=4/3* π(d_e/2)^3

The energy of an electron (E_e)is equal to planks constant(h) times the speed of light (c)divided by the wave length of the electron (λ_e). E_e=h*c/λ_e

this can be re-arranged to show that an electrons wavelength λ_e=hc/E_e

And c/λ=f therefore: 4/3* π(d/2)^3=(π*d^3)/6 (π*d^3)/6=c/λ_e

Then d_eFPl=((6*f_e)/π)^(1/3)

And that rather large number d_eFPl which seams meaningless at this point as it’s rather larger than an electrons diameter is of course the electrons diameter measured in fundamental lengths.. .

Which is why we now must use this formula:

1_FPl=(2*r_e)/d_eFPl

This is the approximate diameter of a fundamental particle.

Particle radius.

1_FPr=1_FPl/2

Particle Volume

1_FPV= V=4/3 π(1_FPl/2)^3

Particle Energy

1_FPE=E_e/(d_eFPl)^3

Particle mass

1_FPm=1_FPE/c^2

Particle Wavelength

1_FPλ=hc/1_FPE

Particle Frequency

1_FPf=c/1_FPλ

Particle Density

1_FPD=1_FPm/1_FPV

Particle Circumference

1_FPC=π*1_FPl

Particle Surface Area

1_FPSA=4 π(1_FPr)^2

Copyright 2011 Dave Dowling.

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