On 14-Feb-13 11:21 AM, Ken S. Tucker wrote:
> MMX-LIGO paradigm shift.
>
> In 1887 the famous Michael Morley (MMX) experiment employed
> interferometers to measure Earths absolute motion widely agreed by
> theoretical physicists of the era to exist, yet it could not be
> measured decade after decade of trying, only a 'null' result occurred.
> The overall result was a paradigm shift leading to the Special
> Relativity Theory.
>
> Today LIGO's interferometers are unable to measure 'g-waves' entering
> the second decade, only a 'null' result is measurable.
>
> Fortunately GR provides the inclusion of any energy to describe matter,
> including mass entirely composed of storing energy in a charge ensemble=
.
> When that definition of energy is used, 'g-waves' will still be emitted
> though in the form of Electromagnetic Radiation.
>
> Hence such a theory will predict the LIGO detectors to 'null' similiar
> to our experience of the MMX.
>
> A stronger reason to expect the LIGO 'null' is the prediction of the
> Quantum Theory and it's effect on spactime in the brief,
>
>
http://physics.trak4.com/GR_Charge_Couple.pdf
>
> which also incorporates the foundation of Quantized General Relativity.
> Regards
> Ken S. Tucker
My 2� :
First I think it is silly to "quantize" GR. Quantization is caused by
the lack of GR's inertia. How do you quantize something that is not
there, at the Heisenberg conditions ?
Second, gravitational waves, or better : inertial waves, tend to null
quickly : a wave with higher inertial density would almost immediately
extinguish itself.
Third : gravitational waves were modeled after electromagnetic waves,
which are not waves at all, but photons. There is no correspondent
gravitational particle/wave.
Uwe Hayek.