On Mar 31, 4:54 am, BradGuth wrote:
On Mar 29, 5:42 am, (G=EMC^2 Glazier) wrote:

It is safe to say "Where there is agravitonthere is also gravity." I
like the paper(posted it many times) that Scherk,and Schwartz came up
with.in 1972 That in quantum gravity the aggravation is massless and
has spin 2 That is by the way twice as fast as photon's spin. My spin
is in theory tells that spin 2 makes thegravitonvery heavy(high
inertia),and that can explain a lot of the mysteries of thegraviton
Bert

Then by all means, 2c it is (600,000 km/s = graviton rate of spin)

? Graviton Energy or GE=M2C2 ?

BTW, you haven't bothered to offer your best swag to the given
population of gravitons/m3, say as found within the Earth-moon L1 =
Xe??? number of those pesky gravitons/m3. There's roughly 2e20 N
worth of mutual gravity/tidal force of those Newtons to cope with, so
are we talking of 2e120 gravitons/m3/sec, or what number of gravitons?

In other friendly words of my somewhat dyslexic encrypted wisdom, how
many of those quantum string like gravitons/m3/Newton force of 102
grams/sec of mutual attraction are we talking about? (I'll assume it's
a whole lot more than a count of one graviton/m3)
. - Brad Guth

Here's more brain food for this gravity topic of gravitons.

Graviton = Gravity / by G=EMC^2 Glazier

http://pages.prodigy.net/jhonig/bignum/qaearth.html
Atoms in all the earth5 = (a) x (d) x (e)6 = (1.3 x 1025) x (11.34) x
(6.02 x 1023) = 88.745 x 1025 x 1023 = 88.745 x 1048 = 8.87 x 1049

The Earth and moon combined volumes are roughly 1.11e21 m3
The combined mass is roughly 6.0475e24 kg
Based upon the same Avogadro number of 6.02e23 atoms per mol
The combined number of atoms is supposedly in the realm of 9e49

If there were but one graviton per atom, and if 100% of those
gravitons were entirely focused down to merging through one m3 volume
of the moon's L1 would suggest a volumetric graviton population per m3/
sec of merely 9e49.

However, like photons per given atom are many, as well as going off in
all possible directions at the same time, in of itself represents that
our initial conservative graviton swag of 9e49/m3 is absolute
nonsense, and otherwise off by a great many magnitudes of order.

Since mass is a given constant and thus each and every associated atom
is forever constant as long as said mass exist, and since gravitons
are not likely limited as to offering one such measly graviton per
atom, nor as limited to offering one given direction of graviton flux,
is in of itself suggesting that each and every atom offers a nearly
infinite number of said gravitons per any given second.

So, what's the true or best swag worth of gravitons/m3/sec existing
between Earth and our unusually massive and physically dark moon, if
such were quantified as coexisting per second within one m3 of the
moon's L1 ?
.. - Brad Guth