Hi All, 7-4-09
I'm enclosing some snippets on 2012 which you may find
interesting.
Jack Smith
Date: Fri, 09 Feb 2007
thomas malloy wrote:
``Vortexians;
Those of you who have been on the list for a while
know that I have a fascination with the apocalypse,
and a gallows
From Mr. Lawrence,
OrionWorks wrote:
Welcome back, Mr. Lawrence
Thank you, Mr. Johnson ... and I would like to make a brief OT excursion
to apologize to you for my sanctimonious, unpleasant, and undeserved
comments to you just before I flounced out of the room and slammed the
door, a
On Jul 3, 2009, at 8:06 PM, mix...@bigpond.com wrote:
In reply to Horace Heffner's message of Fri, 3 Jul 2009 17:29:26
-0800:
Hi,
[snip]
However, 1 g of hydrogen unexpectedly set off in lattice by the
volume effect of polarized x-rays
Where does this come from?
My fertile imagination.
Steve,
In regard to #9 on your list of subjects 2008 DARPA Document: LENR
Research Budgeted
You say Hidden deep inside a Defense Advanced Research Projects Agency
budget justification document is a notice
http://newenergytimes.com/v2/news/2009/Darpa2008.pdf for LENR funding.
It's on
On Jul 3, 2009, at 8:06 PM, mix...@bigpond.com wrote:
...but wouldn't that gradient need to exist between the particle
and the
nucleus?
I wrote: Any hydrogen in a fully loaded lattice is surrounded by
atoms in all quadrants. Further, even as charged particles, hydrogen
can readily
How does anyone know that the obit of Nebran Planet X lasts for 3600
years except by relating it to the events that are assumed to be
caused by the planet? In other words, this looks like circular
reasoning, which gives no evidence at all.
Ed
On Jul 4, 2009, at 5:38 AM, Taylor J. Smith
Many days I can't even get things right on the second try.
I wrote: I expect the gradient within the cathode can be made over
100 times that 0.02 T/cm^2, using even permanent magnets, in
experiments designed to meet that objective.
That should be: I expect the gradient within the cathode
On Fri, 3 Jul 2009, Stephen A. Lawrence wrote:
No, the force should have been the same in each trial. Think about what
you've got.
If each layer is behaving elastically, then the question you need to ask
is, what force is needed to compress 1 layer to 1/2 its thickness? Call
that force F.
I'll be back.
Harry
- Original Message -
From: Horace Heffner hheff...@mtaonline.net
Date: Wednesday, July 1, 2009 9:57 pm
Subject: Re: [Vo]:vortex balls!
On Jul 1, 2009, at 3:33 PM, Harry Veeder wrote:
- Original Message -
From: Horace Heffner
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