tag:blogger.com,1999:blog-1781103950595492559.post2769244322870495538..comments2023-12-25T06:49:24.903-08:00Comments on Dipole (Anti)Gravity, Magnetic Gravity, true Gravitomagnetism: Email Letter Sent to the Higgs Boson Discoverer, the Distinguished Chinese Physicist Dr. Sau Lan WuUnknownnoreply@blogger.comBlogger10125tag:blogger.com,1999:blog-1781103950595492559.post-41425256778096776672017-10-05T18:21:06.479-07:002017-10-05T18:21:06.479-07:00I would be happy to participate in your bog or any...I would be happy to participate in your bog or any communication channel.. tachyonics3@gmail.comhttps://www.blogger.com/profile/07453992091470048810noreply@blogger.comtag:blogger.com,1999:blog-1781103950595492559.post-69104583561365966072017-09-27T21:47:40.598-07:002017-09-27T21:47:40.598-07:00Have you ever considered creating an ebook or gues...Have you ever considered creating an ebook or guest authoring on other blogs?<br /><br />I have a blog centered on the same subjects you discuss and would love to have you share some stories/information. I know my audience would enjoy your work.<br />If you're even remotely interested, feel free to send me an email.Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-1781103950595492559.post-29423315437230057362017-09-11T00:35:27.276-07:002017-09-11T00:35:27.276-07:00Thank you! I am honored to receive your wisdom on ...Thank you! I am honored to receive your wisdom on this important discovery.<br /><br />I have several ideas for creating electromagnetic systems to induce dipole gravitational fields but I'm curious about your potential experimental approach that would yield unambiguous evidence of a linear force induced from the loss of angular momentum in relativistically rotating asymmetrical systems.<br /><br />Are you familiar with how a fiber optic gyroscope uses the phase shift between two laser beams to detect motion? Do you think that a conical resonant cavity like the "EM Drive" produced at NASA Eagleworks may be causing dipole gravitational moments by the phase shift of microwaves rotating within the asymmetrical cavity?Anonymoushttps://www.blogger.com/profile/02305989095533481903noreply@blogger.comtag:blogger.com,1999:blog-1781103950595492559.post-16509399936663017162017-09-08T17:53:55.468-07:002017-09-08T17:53:55.468-07:00Send me email message using my email address in th...Send me email message using my email address in the blog and I'll send you a pdf copy of the book. The experiment is not very complicated but it still takes time and resources. Eue Jin Jeonghttps://www.blogger.com/profile/17548427456268866621noreply@blogger.comtag:blogger.com,1999:blog-1781103950595492559.post-60987704197959465612017-09-07T01:41:03.701-07:002017-09-07T01:41:03.701-07:00I'd love to collaborate on designs for future ...I'd love to collaborate on designs for future experiments. <br /><br />I have been designing an asymmetrical capacitance system that relies on concentric spherical shells of metal that form a vacuum spark gap between each. <br /><br />Ideally these spark gaps would be in the micron to sub-micrometer range. The outer shell would supply electrons and the core would be grounded through an insulated wire.<br /><br />This would amplify the Casimir force experienced by excluding EM modes around each electron asymmetrically in the direction of the core. This creates a bias in the virtual photon vacuum flux experienced by the electrons at each spark gap. <br /><br />The end result is that there appears an anomalous acceleration of electrons towards the core from the outer shell. This would result in over-unity power output supplied by the asymmetrical vacuum flux acting upon the electrons, and the acceleration of the masses of electrons will give rise to an artificially large gravitational monopole.<br /><br />This can be changed to a dipole by making 2 hemispheres where each hemisphere is reversed in polarity such that the capacitor discharge is equal and opposite. This should produce a negative energy density vacuum impulse, and a positive vacuum energy density impulse.Anonymoushttps://www.blogger.com/profile/02305989095533481903noreply@blogger.comtag:blogger.com,1999:blog-1781103950595492559.post-78766906314908041772017-09-07T01:30:26.740-07:002017-09-07T01:30:26.740-07:00I shall purchase a copy soon!
Several years ago I...I shall purchase a copy soon!<br /><br />Several years ago I read of the work of Robert L. Forward on the so-called 'protational field' effect of rotating super-conductive rings. <br /><br />I can't help wonder if the insight into gravitational dipole moments would have helped optimize his original experiments to induce a 'gravitational Meisnner-effect' by the coherent motion of the electron masses which must necessarily reach near-light speed inside the superconductor and experience a large mass dilation, my instinct was to test the 'tachyonic' nature of having a rotating reference frame for near-light speed particles to probe the limit.<br /><br />It was my goal for some time to test this hypothesis but I didn't understand that there would be a dipole moment which could break gauge symmetry when the disc itself was asymmetric. Anonymoushttps://www.blogger.com/profile/02305989095533481903noreply@blogger.comtag:blogger.com,1999:blog-1781103950595492559.post-47110487968288641962017-09-03T19:25:29.799-07:002017-09-03T19:25:29.799-07:00Thanks for your comment. The rotating hemisphere i...Thanks for your comment. The rotating hemisphere is a concept from general relativity. Although it will be possible to create enough force to propel a spacecraft by such method, it will require enormous amount of energy and materialistic rigidity of the rotor to produce adequate propulsion. In the book "Physics of the New Millennium, Birth of the New Paradigm" that I recently published, there is detailed description of electromagnetic method to produce the same effect. <br /><br />Sincerely,<br />Eue Jin JeongEue Jin Jeonghttps://www.blogger.com/profile/17548427456268866621noreply@blogger.comtag:blogger.com,1999:blog-1781103950595492559.post-80603724350626919962017-09-03T18:15:33.323-07:002017-09-03T18:15:33.323-07:00Greetings,
I'm intrigued by the prospect of a...Greetings,<br /><br />I'm intrigued by the prospect of anomalous center of mass shifts. This dipole gravitational field seems analogous to the transient mass fluctuations theorized to produce the "Woodward effect".<br /><br />I'd like to hear more from you about the implications of dipole gravity field generation on spacecraft propulsion, and get a feel for the scale of the forces involved.<br /><br />Can a hemispherical shell with an optimized mass distribution produce a strong enough dipole gravitational field to overcome the local gravitational potential well of the Earth?<br /><br />Warm Regards, <br /><br />Taylor WestmoreAnonymoushttps://www.blogger.com/profile/02305989095533481903noreply@blogger.comtag:blogger.com,1999:blog-1781103950595492559.post-36383109223973934522017-08-31T00:09:34.573-07:002017-08-31T00:09:34.573-07:00My partner and I stumbled oer here from a diffvere...My partner and I stumbled oer here from a diffverent web address and thought <br />I maay as well check things out. I like what I see soo i amm jus fllowing you.<br />Look forward to going over your web page again.Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-1781103950595492559.post-64178976626353385852017-08-11T21:19:47.195-07:002017-08-11T21:19:47.195-07:00Sitting at the center of the Milky Way galaxy lies...Sitting at the center of the Milky Way galaxy lies a supermassive black hole named Sagittarius A* (Sgr A*), possessing the mass of about 4 million suns. And the primary function of Sgr A* is to be an eternal suck hole for any and all matter that manages to unwittingly find its way into the black hole’s vicinity, new data illustrates. The supermassive black hole has inadvertently become a testing ground for Albert Einstein’s theory of general relativity. <br /> <br />Astronomers using the European Southern Observatory’s Very Large Telescope (VLT), among other instruments, just completed an analysis of a trove of new data regarding Sgr A*, which demonstrates gravitational effects predicted by Einstein. The new findings, published in The Astrophysical Journal, further validate the theory of relativity through the orbit of the stars circling around Sgr A*. <br /> <br />“The Galactic Center really is the best laboratory to study the motion of stars in a relativistic environment,” said Marzieh Parsa, an astronomer at the University of Cologne in Germany and lead author of the new paper, in a press release. “I was amazed how well we could apply the methods we developed with simulated stars to the high-precision data for the innermost high-velocity stars close to the supermassive black hole.” <br /> <br />The research team, hailing from Germany and the Czech Republic, used VLT observations from the last 20 years to compare star orbit predictions made through Newtonian gravity techniques, with predictions made through general relativity. What they found was that a star known as S2 exhibited movements consistently predicted by general relativity. <br /> <br /> <br />The star S2 will make a close pass around the black hole in 2018 when it will be used as a unique probe of the strong gravity and act as a test of Einstein's general theory of relativity. <br /> <br />Why is this so big? Well, it would be the first time a measurement of effects defined by general relativity were observed in stars orbiting a supermassive black hole. <br /> <br />The VLT’s incredible strength, of course, made these measurements possible. It’s unclear how else S2’s movements would have been so accurately watched. <br /> <br />([url=http://www.zx-printing.com/prices/booklet-printing/]booklet printing[/url], [url=http://www.zxprinter.com]printing in China[/url]). <br /> <br />Overall, the study does not provide any groundbreaking news, but it’s further validation — about a year-and-a-half after gravitational waves were finally detected — that Einstein managed to articulate a major framework for how the universe works a century before physicists really had the tools to confirm he was right. <br /> <br />That doesn’t mean astrophysicists are finally finished. These new results may just be a soft introduction to much more invigorating data to be collected by GRAVITY, a new instrument helmed by the Max Planck Institute for Extraterrestrial Physics in Garching, Germany. That instrument may be able to track the passage of S2 along Sgr A* in 2018 and unveil an even more tantalizing trove of data relevant to general relativity’s and modern physics’ biggest questions.Anonymousnoreply@blogger.com