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Topic: The most fundamental physics equation
Replies: 3   Last Post: Feb 18, 2013 8:36 AM

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Tom Potter

Posts: 497
Registered: 8/9/06
The most fundamental physics equation
Posted: Feb 17, 2013 4:13 AM
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1. The most fundamental physical property is angular displacement.

2. Quantum changes occur when systems exchange angular displacement.

( You can add or take away cycles from a pendulum
or oscillating system. )

3. The most fundamental quanta of change is best modeled by "i'
( The square root of minus one. )

4. i^1 = a quarter cycle counter-clockwise angular displacement
i^2 = a half cycle counter-clockwise angular displacement
i^4 = one cycle counter-clockwise angular displacement
i^n = n quarter cycles counter-clockwise angular displacement
i^4n = n cycles counter-clockwise angular displacement

5. Changes occur in quanta of i^n
http://www.microwaves101.com/Encyclopedia/quarterwave.cfm

http://www.microwaves101.com/ENCYCLOPEDIA/smithchart.cfm

6. The quanta units of angular displacement include:
a. cycles = i^n/4
b. half cycles ( cycles * 2 )
c. Quarter cycles ( cycles * 4)

7. The real number units of angular displacement include:
a. radians = ( 2 * pi * cycles )
( Which is an angular displacement referenced to a space unit.)
b. action = Planck's Constant * i^n/4
( Which is an angular displacement referenced to an energy unit.)

8. Angular displacements are measured using
an external standard frequency source.

Since 1967, the International System of Units (SI) has defined
the second as the duration of 9192631770 cycles of radiation
corresponding to the transition between two energy levels of the caesium-133
atom.

In other words, although i^n is the most fundamental quanta of change,
in order to measure it,
it must be referenced to an external source,
and at the present time,
that reference is an energy level transition of the caesium-133 atom.

9. The Potter Equation is the most fundamental physics equation.
x = e^(i^n * m*pi) = e^((i^n)^2 * k)

It expands the "Euler Identity" equation (e^(i*pi) + 1 = 0)
http://www.songho.ca/math/euler/euler.html

and relates pure math to physical reality.

( Note that "m" and the "k"
interface quanta angular displacements to a linear space.
2*pi*r, pi*d, k = pi*n*r )

The Potter Equation which features quanta of angular displacement

is more fundamental than e = hf
( Which features Planck's quanta of action.)

and is more fundamental than e = mc^2
( Which features Einstein's non existent quanta of energy.)

10. Change is conveyed from sources to sinks in quanta of i^n,
( Quarter wave quanta )

Planck's Constant is a constant
used to convert angular displacement quanta to action.
( i^n * h = action )

And Einstein's quanta of energy is action quanta "h" affected by velocity.
( energy = hf and relative motion affects f.)

11. Several other constants come into play
when equating measurements based on
either cycles (Quanta) or radians (Real) to reality

Cycles are bosons and many bosons can occupy a point.

( You can add or take away cycles from a pendulum
or oscillating system. )

The measured value of a batch of bosons
depends upon how the measurement is made
and expressed:

peak
peak to peak
average
rms,
quasi-peak
etc.

Observe that peak and peak to peak
quantize a batch of bosons at a point in time
whereas quasi-peak, average and RMS
quantize the batch over some time period.

11. Quanta of angular displacement tend to
migrate from high temperature systems
to contiguous lower temperature systems.

For more information visit my physics web site.
http://184.105.237.216/~tompotte/menu.html

I think this post is bulletproof
and like to see anyone shoot a hole in it.

I welcome feedback, comments, criticism,
and even sharpshooting.

(A 'sharpshooter' criticizes without offering suggestions.)

--
Tom Potter

http://the-cloud-machine.tk
http://tiny.im/390k






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