Re: About GR (kst)



Ken S. Tucker wrote:
> You and I are astronauts, sitting on the pad
> and the count-down begins, 5,4,3,2,1...blast-off!
> at t=1.
>
> The g-meter goes from 1g to 2,3,4,5g and stabilizes.
>
> A mechanical deformation heated the space-craft
> as it strained under the effects of the acceleration,
> the space-craft was heated and an extra infared
> energy was produced and emitted.
>
> You look out the window and find you're still
> sitting on the pad......why?
>
> Answer:
> At t=1 the Earth's density increased by factors,
> 1,2,3,4,5, hence it's mass increased likewise
> while the volume and radius remained constant.
>
> Using AE's law G_uv=k*T_uv we would find,
>
> Guv at (t=5) = 5*Guv at (t=1) and
>
> Tuv at (t=5) = 5* Tuv at (t=1).
>
> The later is interesting, because as the acceleration
> increased, the space-craft was heated and emitted
> quantized radiation in the infared spectrum.

I don't thing infared would be the culprit (a big
*** of shielding foil LOL ) but
we get the idea. An increase in the motion
contributing to induced dipole forces might
behave as you are describing and that would be
unshieldable as magnetism is.

Sue...
>
> The change in Guv from t=1 to t=5 appeared to the
> astronaut's to be acceleration, but in fact, it was a
> gravitational change given by,
>
> g00-1 (at t=5) = 5*(g00-1) (at t=1),
>
> as the Earth's density increased.
>
> That's AE's law G_uv =k*T_uv in operation with the
> Principle of Equivalence.
>
> Normally GRist's use G_uv=0 and Schwart's Solution,
> but in juxtaposition this example demo's the induction
> of heat when a change in T_uv occurs and creates
> quantum radiation using the differential of the realistic
>
> G_uv =k*T_uv.
>
> The induction needs the relative motion of charges,
> therefore the AE law applies to a relation.
> ((the continuum is being replaced by relations))
>
> That differential that outputs the infared radiation is
> discontinuous, aka quantized, hence,
>
> T_uv;w =0 ,however,
>
> T_uv;w is not a constant.
>
> but the integral
>
> $ T_uv;w dx^w = a relative constant .
>
> Physically, we're incrementing the energy in
> a volume of spacetime by inducing a quanta
> of energy like a photon, or perhaps emitting,
> as the spacecraft is deformed, and from various
> refs, that constant is relativistic.
> Ken S. Tucker

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