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From: guskz on 21 Jun 2010 17:18
One can heat air, food. Can vacuum be heated?

#1. If not, then photons in a pure vacuum cannot generate heat.

#2. Since "scientist" say the average vacuum density BETWEEN GALAXIES
is (don't remember) say 1 proton per m^3 .....then one MUST calculate
probability of photon collision(interference) the same way proton beam
collision is calculated.

Which is:

#1) Probability of collision, interference = (number_of_protons)^2/
average_density

And also:
Probability_of_Einstein_red_shift_gravitational(or charge?)
interference =

(number_of_protons)^2/ (average_density/ r^2)

(r^2 = m^2) thus =

#2(#_protons)^2 / (Mass_one_proton/ 1_meter).

---------------

Thus a Super-Nova's distant luminosity weakens by #1, and it's Red-
shift, shifts by #2 above.

Where #_protons = Distance (d) in meters the light has traveled.

(Density = mass_one_proton/ 1 m^3 = mass_one_proton)

Thus #1 Brightness_observed = Brightness_theoretical / ( d^2/
mass_one_proton)

#2 = Redshift_observed = Redshift_theoretical / (d^2 /
mass_one_proton)

??



From: oen on 21 Jun 2010 17:28
On Jun 21, 11:18 pm, "gu...(a)hotmail.com" <gu...(a)hotmail.com> wrote:
> One can heat air, food. Can vacuum be heated?

yes, compressed interstellar vacuum can

but you need adiabatic compression in order to make sure
From: guskz on 21 Jun 2010 17:36
On Jun 21, 5:18 pm, "gu...(a)hotmail.com" <gu...(a)hotmail.com> wrote:
> One can heat air, food. Can vacuum be heated?
>
> #1. If not, then photons in a pure vacuum cannot generate heat.
>
> #2. Since "scientist" say the average vacuum density BETWEEN GALAXIES
> is (don't remember) say 1 proton per m^3 .....then one MUST calculate
> probability of photon collision(interference) the same way proton beam
> collision is calculated.
>
> Which is:
>
> #1) Probability of collision, interference = (number_of_protons)^2/
> average_density
>
> And also:
>  Probability_of_Einstein_red_shift_gravitational(or charge?)
> interference =
>
>  (number_of_protons)^2/ (average_density/ r^2)
>
> (r^2 = m^2) thus =
>
> #2(#_protons)^2 / (Mass_one_proton/ 1_meter).
>
> ---------------
>
> Thus a Super-Nova's distant luminosity weakens by #1, and it's Red-
> shift, shifts by #2 above.
>
> Where #_protons = Distance (d) in meters the light has traveled.
>
> (Density = mass_one_proton/ 1 m^3 = mass_one_proton)
>
> Thus #1 Brightness_observed = Brightness_theoretical  / ( d^2/
> mass_one_proton)
>
> #2 =  Redshift_observed = Redshift_theoretical / (d^2 /
> mass_one_proton)
>
> ??

Proton mass = 10^-27 kg

Most distant supernova = 20^26 meters

Thus -> (10^26)^2 /10^27 = 10^25???

Now that's a big factor to affect both luminosity and redshift of
supernova's?

That doesn't make sense, since it means one beam of photons would
collide with 10^25 protons before arriving to earth, meaning it would
never arrive? Where's the math error? (Dark Matter??)

From: guskz on 21 Jun 2010 17:36
On Jun 21, 5:28 pm, oen <ynes9...(a)techemail.com> wrote:
> On Jun 21, 11:18 pm, "gu...(a)hotmail.com" <gu...(a)hotmail.com> wrote:
>
> > One can heat air, food. Can vacuum be heated?
>
> yes, compressed interstellar vacuum can
>
> but you need adiabatic compression in order to make sure

Your brain is compressed.
From: Uncle Al on 21 Jun 2010 20:44
"guskz(a)hotmail.com" wrote:
>
> One can heat air, food. Can vacuum be heated?
[snipc rap]

1) 1/2 virtual photon for every allowed electromagnetic mode.
2) Sparking the vacuum for nuclei with Z larger than the reciprocal
fine structure constant.
3) Vacuum dichroism for magnetic fields ca. 100X those in
magnetars.
4) Pair formation for heavy nucleus-grazing photons exceeding 1.022
MeV.
5) idiot

--
Uncle Al
http://www.mazepath.com/uncleal/
(Toxic URL! Unsafe for children and most mammals)
http://www.mazepath.com/uncleal/qz4.htm
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