I would like to that argue a thrown ball has momentarily zero weight at the top of its
trajectory because g is momentarily zero. This is because I see gravity
acceleration as being expressed by matter rather than being an impressed on
matter. During the ascent the ball is decelerating (-g) and the during the
descent it is accelerating (+g).
Harry
Frederick Sparber wrote:
You're welcome.
The item I missed in the early 1980s when former astronaut Deke Slayton
of Houston-based Space Services Inc., sent a representative up my way for
discussing the idea of running a pulse around a coaxial "wire-in-a-tube" device
to get a combination 1/R^2 Anti-Gravity and Force Field, was that
although the Charge Q = capacitance x pulse voltage V "walking around
the loop" charging-discharging the L-C increments, setting up a primary B field that
was shielded and would cancel any AG-FF effect , was that the capacitance charge displacement current
Id = C*dV/dt sets up a secondary dB/dt field which in turn sets up a Secondary
E field that doesn't "see" the "ordinary" Electromagnetic "shielding" Effects
and therefore only "sees" the 1/R^2 gravity field properties of matter.
IOW, if you can apply enough energy (~ 10 watts/kg) you can achieve weightlessness
with it or use it to stop an incoming cannon ball.
Provided your inertia is greater than it's momentum. :-)
Fred
----- Original Message -----
From:
To: [email protected]
Sent: 3/31/2006 12:14:05 PM
Subject: Re: Electrogravity From Accelerated B Fields
In a message dated 3/25/2006 3:01:24 PM Eastern Standard Time, [EMAIL PROTECTED] writes:
Interesting equipment these European experimenters use.Thanks for the above links. They were very helpful.
http://www.vlf.it/
Some puzzling peaks at ~ 12 KHz & ~ 22 KHz
http://www.vlf.it/ed/earthprobes.html
Very Low Frequency (VLF) 9 KHz to 30 KHz:
http://www.jneuhaus.com/fccindex/10_khz.html#10_KHz
Thomas Clark, www.rhfweb.com/personal.html <http://www.rhfweb.com/personal.html>
Baron Volsung www.rhfweb.com/baron <http://www.rhfweb.com/baron>
