On Feb 3, 2006, at 9:07 PM, Jones Beene wrote:
- Original Message - From: Horace Heffner
We may have a dark partner in our part of the galaxy.
I would be willing to bet that the partner will probably be our
progenitor system - the one that spawned the solar system.
We have
http://www.mtaonline.net/~hheffner/SolarLunarGK.pdf
has been updated with the following.
Gravimagnetic Moment and Angular Velocity
Given angular velocity w and a mass charge:
m = mass * i
we have gravimagnetic current:
i_g = m * w
and, rotating at effective radius r_eff, we have
Horace
If the object were 150 light years away it would have to have
[(1.551 x 10^-11 i Hz)/(9.526x10^-23 i Hz)]/(150 ly/1.496x10^8
km)^3 = 1.39x10^32 times the gravimagnetic dipole moment of the
sun. This would be a black hole for sure. In fact, at a mere 1
ly distance it would have to
On Feb 4, 2006, at 6:20 AM, Jones Beene wrote:
Horace
If the object were 150 light years away it would have to have
[(1.551 x 10^-11 i Hz)/(9.526x10^-23 i Hz)]/(150 ly/1.496x10^8 km)
^3 = 1.39x10^32 times the gravimagnetic dipole moment of the
sun. This would be a black hole for
In reply to Horace Heffner's message of Fri, 3 Feb 2006 18:11:57
-0900:
Hi Horace,
[snip]
galactic core is involved. The axis of precession is aligned with
the poles of the ecliptic, thus the ambient gravimagnetic field must
be also, on average. We may have a dark partner in our part of the
On Feb 4, 2006, at 1:12 PM, Robin van Spaandonk wrote:
In reply to Horace Heffner's message of Fri, 3 Feb 2006 18:11:57
-0900:
Hi Horace,
[snip]
galactic core is involved. The axis of precession is aligned with
the poles of the ecliptic, thus the ambient gravimagnetic field must
be also, on
- Original Message -
From: Horace Heffner
We may have a dark partner in our part of the galaxy.
I would be willing to bet that the partner will probably be our
progenitor system - the one that spawned the solar system.
We have several such massive object candidates in our arm of
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