Towards a new test of general relativity?
Date: Sunday, March 26, 2006 @ 12:23:59 UTC
Topic: Science


Hello all,

Tim Ventura of American Antigravity reported this week about this story: http://www.esa.int/SPECIALS/GSP/SEM0L6OVGJE_0.html

"... Their experiment involves a ring of superconducting material rotating up to 6,500 times a minute (rpm). Superconductors are special materials that lose all electrical resistance at a certain temperature. Spinning superconductors produce a weak magnetic field, the so-called London moment.


The new experiment tests a conjecture by Tajmar and de Matos that explains the difference between high-precision mass measurements of Cooper-pairs (the current carriers in superconductors) and their prediction via quantum theory. They have discovered that this anomaly could be explained by the appearance of a gravitomagnetic field in the spinning superconductor (This effect has been named the Gravitomagnetic London Moment by analogy with its magnetic counterpart).

Small acceleration sensors placed at different locations close to the spinning superconductor, which has to be accelerated for the effect to be noticeable, recorded an acceleration field outside the superconductor that appears to be produced by gravitomagnetism. "This experiment is the gravitational analogue of Faraday's electromagnetic induction experiment in 1831. ..."

Now, according to my research, the key to controlling gravity is controlling the field energy of fundamental particles. Spinning their superconducting disk "increases" this internal energy, thereby increasing its mass. The superconducting disk simply gets heavier as reported. Now, inspired by Tim Ventura's (American Antigravity) information about the NAZI Bell Experiment, last year (2005), I decided to try a simple experiment. I managed to capture by photo what I call a "Diagravitic Effect": http://www.intalek.com/Index/Projects/Diagravitics/Diagravitics.htm

This simple experiment uses two counter-rotating disks, one stacked upon the other as shown in the Figure 1. The result of this experiment appears to show NOT an antigravitational force, but an opposing gravitational force, or what I call a Diagravitatic Force.

Its also interesting to note that a rotating disk produces what is commonly known as 1-axis "gimble-lock". However, the coupling of two counter-rotating disks causes this "gimble-lock" effect to completely vanish!

Bill

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William S. Alek
Exploring Gravitational and Inertial Mass fluctuations,
Radiant Energy, and Temporal Anomalies
http://groups.yahoo.com/group/intalek

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[We also reported on this story, see "ESA funds Gravito-Magnetic research" on Mar 23 - Vlad]

TOWARDS A NEW TEST OF GENERAL RELATIVITY?, March 23
Scientists funded by the European Space Agency have measured the gravitational equivalent of a magnetic field for the first time in a laboratory. Under certain special conditions the effect is much larger than expected from general relativity and could help physicists to make a significant step towards the long-sought-after quantum theory of gravity.

Full story at http://www.physorg.com/news12054.html







This article comes from ZPEnergy.com
http://www.zpenergy.com

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http://www.zpenergy.com/modules.php?name=News&file=article&sid=1819