______________________________________________________________________________ | File Name : GRAVSHLD.ASC | Online Date : 02/09/96 | | Contributed by : Jim Shaffer | Dir Category : GRAVITY | | From : KeelyNet BBS | DataLine : (214) 324-3501 | | KeelyNet * PO BOX 870716 * Mesquite, Texas * USA * 75187 | | A FREE Alternative Sciences BBS sponsored by Vanguard Sciences | | InterNet www.keelynet.com email jdecker@keelynet.com (Jerry Decker) | | Files also available at Bill Beaty's http://www.eskimo.com/~billb | |----------------------------------------------------------------------------| From: robert@wwa.com (Robert Stirniman ) Subject: Re: fnrg: Mineshaft bobs To: freenrg-list@eskimo.com Date: Sun, 17 Dec 1995 12:18:52 -0600 (CST) > > Well, I have one nagging question about "push" gravity... > > The 'push' would be coming from all the other matter in the universe. > It's pretty evenly distributed, so that the net effect is an evenly > distributed gravity field. The hypothesized "push" results from a differential pressure, due to partial absorption of background radiation by matter. In effect, we are in the earth's "shadow", and are hence pushed in one direction, toward the earth, to a greater extent than the push away from the earth. There are more than a few theories that predict that gravity can be shielded. In fact some theories, modern and non-modern, suggest gravity itself results from a differential shielding effect, with the apparent force of gravity caused by a push or pressure due to shielding by bodies of matter from the background radiation of free space. Some of these theories do a fairly thorough job of providing a detailed model of how things work -- including just about everything. Some of the better written of these appear to be no more or less experimentally provable than General Relativity. One of their main drawbacks might be that they weren't created by Einstein. Still, some of them are written by notable and respected physicists such as Sakharov and Puthoff -- and there are a raft of others with similar proposals and ideas. There is also experimental evidence that gravity can be shielded. There are of course, the inventions of Henry Wallace, a scientist at General Electric, who received patents in the early 1970's for devices which demonstrate the capability of shielding and control of a gravitational field. Although, Wallace's work is possibly of earth shaking importance, any further efforts or independent verification and tests of his discoveries are mysteriously absent from the scientific record. Some folks, myself surely included, believe that our military black project community has clamped a lid on the whole thing. But let's leave the Wallace story for now, and look at a more recent experimental finding. If anyone would like more information about the Wallace inventions, please send an email request to: robert@wwa.com In a very recent vein. Here's some information about a startling experiment that was reported in early 1995, which found that a gravitational shielding effect can be attained by spinning a mass of superconductor material. There is also a separate article which provides a theoretical analysis of how this might be possible. ============================================================================== From: R.Bursill@sheffield.ac.uk (R Bursill) Subject: Hi Tc SC and gravitational shielding Date: Fri, 6 Oct 1995 03:14:41 GMT Is anyone familiar with the experiments of Podkletnov et al on weak gravitational shielding from a Meissner levitating, rotating disk of high-Tc superconducting material? The paper is: E. Podkletnov and R. Nieminen, Physica C 203 (1992) 441. E. Podkletnov and A. D. Levit have another paper now, a Tampere University of Technology report, January 1995 (Finland), the experiment having been repeated (I assume no one believed it the first time?). In the 1st experiment a 5 gram sample of silicon dioxide was found to lose around 0.05 % of its weight when placed at a distance of 15 mm from the SC disk. The SC disk had diameter 145 mm and thickness 6 mm. Under rotation of the disk the effect increased up to 0.3 %. In the 2nd experiment samples of different composition and weight (10-50 g) were placed at distances of 25 mm to 1.5 m from the disk. The mass loss went as high as around 2 %. I found out about this through a theoretical preprint by Giovanni Modanese, a Von Humboldt Fellow from the Max Plank institute. The preprint no. is MPI- PhT/95-44, May 1995. A colleague got it from hep-th@babbage.sissa.it, paper 9505094. Modanese thinks that it is something to do with the Bose Condensate from the SC interacting with the gravitational field. He uses some non-perturbative quantum theory on the Regge lattice to attempt to understand the effect. Must be a little bit like explaining cold fusion with the standard tools - couldn't be done. We all know what happened to cold fusion but at the time a professor from my department said in a public lecture that the product of the believability and the potential importance if true was of order 1. -- Robert Bursill ------------------------------------------------------------------------------ Title: Theoretical analysis of a reported weak gravitational shielding effect Author: G. Modanese (Max-Planck-Institut, Munich) Report-no: MPI-PhT/95-44 May 1995 Under special conditions (Meissner-effect levitation and rapid rotation) a disk of high-Tc superconducting material has recently been found to produce a weak shielding of the gravitational field. We show that this phenomenon has no explanation in the standard gravity theories, except possibly in the non-perturbative quantum theory on the Regge lattice. More data, and independent repetitions of the experiment are however necessary. ------------------------------------------------------------------------------ The above article, in it's entirety, can be found in electronic format, at the Los Alamos National Lab Physics E-Print Archive: http://xxx.lanl.gov/ Regards, Robert Stirniman (robert@wwa.com) ------------------------------------------------------------------------------