Topic: New Antigravity Solution Could Enable Space Travel Near Speed Of Light  (Read 1241 times)

0 Members and 1 Guest are viewing this topic.

Offline Stormbringer

  • Global Moderator
  • Lt. Commander
  • *
  • Posts: 1984
  • Gender: Male
New Antigravity Solution Could Enable Space Travel Near Speed Of Light

http://www.spacedaily.com/reports/New_Antigravity_Solution_Could_Enable_Space_Travel_Near_Speed_Of_Light.html

The field equation of Einstein's General Theory of Relativity has never before been solved to calculate the gravitational field of a mass moving close to the speed of light. Felber's research shows that any mass moving faster than 57.7 percent of the speed of light will gravitationally repel other masses lying within a narrow 'antigravity beam' in front of it. The closer a mass gets to the speed of light, the stronger its 'antigravity beam' becomes.
Company Press Release
San Diego CA (SPX) Feb 13, 2006
On Tuesday, Feb. 14, noted physicist Dr. Franklin Felber will present his new exact solution of Einstein's 90-year-old gravitational field equation to the Space Technology and Applications International Forum (STAIF) in Albuquerque. The solution is the first that accounts for masses moving near the speed of light.
Felber's antigravity discovery solves the two greatest engineering challenges to space travel near the speed of light: identifying an energy source capable of producing the acceleration; and limiting stresses on humans and equipment during rapid acceleration.

"Dr. Felber's research will revolutionize space flight mechanics by offering an entirely new way to send spacecraft into flight," said Dr. Eric Davis, Institute for Advanced Studies at Austin and STAIF peer reviewer of Felber's work. "His rigorously tested and truly unique thinking has taken us a huge step forward in making near-speed-of-light space travel safe, possible, and much less costly."

The field equation of Einstein's General Theory of Relativity has never before been solved to calculate the gravitational field of a mass moving close to the speed of light. Felber's research shows that any mass moving faster than 57.7 percent of the speed of light will gravitationally repel other masses lying within a narrow 'antigravity beam' in front of it. The closer a mass gets to the speed of light, the stronger its 'antigravity beam' becomes.

Felber's calculations show how to use the repulsion of a body speeding through space to provide the enormous energy needed to accelerate massive payloads quickly with negligible stress. The new solution of Einstein's field equation shows that the payload would 'fall weightlessly' in an antigravity beam even as it was accelerated close to the speed of light.

Accelerating a 1-ton payload to 90 percent of the speed of light requires an energy of at least 30 billion tons of TNT. In the 'antigravity beam' of a speeding star, a payload would draw its energy from the antigravity force of the much more massive star. In effect, the payload would be hitching a ride on a star.

"Based on this research, I expect a mission to accelerate a massive payload to a 'good fraction of light speed' will be launched before the end of this century," said Dr. Felber. "These antigravity solutions of Einstein's theory can change our view of our ability to travel to the far reaches of our universe."

More immediately, Felber's new solution can be used to test Einstein's theory of gravity at low cost in a storage-ring laboratory facility by detecting antigravity in the unexplored regime of near-speed-of-light velocities.

This article is directly based on a press release issued by Dr. Franklin Felber, and is provided here for informational purposes.



Offline Stormbringer

  • Global Moderator
  • Lt. Commander
  • *
  • Posts: 1984
  • Gender: Male
Re: New Antigravity Solution Could Enable Space Travel Near Speed Of Light
« Reply #1 on: February 13, 2006, 04:58:47 am »
Found an article that has among other things a link to a pdf of his paper:

http://www.technovelgy.com/ct/Science-Fiction-News.asp?NewsNum=549

'Antigravity' Propulsion System Proposed
An 'antigravity' propulsion system will be proposed at the Space Technology and Applications International Forum (STAIF) in Albuquerque on Febuary 14 by Dr. Franklin Felber. His new exact solution to Einstein's gravitational field equation gives hope to space enthusiasts that it might be possible to accelerate space craft to speeds approaching that of light without crushing the contents of the craft. If it works, it could be even better than apergy, as described by science fiction writer Percy Greg in 1880.

Dr. Felber's paper states that a mass moving faster than 57.7 percent of the speed of light will gravitationally repel other masses lying within a narrow 'antigravity beam' in front of it. This "beam" intensifies as the speed of the mass approaches that of light.

The paper shows how to use the repulsion of a body speeding through space to accelerate large spacecraft quickly while reducing internal tidal forces that could tear the cargo apart. The paper argues that the payload would "fall weightlessly" in an antigravity beam as it is accelerated to a substantial fraction of light speed.


"Based on this research, I expect a mission to accelerate a massive payload to a 'good fraction of light speed' will be launched before the end of this century," said Dr. Felber. "These antigravity solutions of Einstein's theory can change our view of our ability to travel to the far reaches of our universe."
(From Physicist to present solution)
On the downside, it does not appear that Dr. Felber has published any previous papers in the field of general relativity. Also, the space engineering conference in Albuquerque probably has lower standards for peer review than those at a gravity conference.

Gravity is a favorite source of propulsion for science fiction writers. In his 1880 novel Across the Zodiac, writer Percy Greg refers to a marvelous material called apergy:


I had satisfied myself that only one thing needful was as yet wholly beyond the reach and even the proximate hopes of science...
I needed a repulsion which would act like gravitation through an indefinite distance and in a void - act upon a remote fulcrum, such as might be the Earth in a voyage to the Moon, or the Sun in a more distant journey. As soon, then, as the character of the apergic force was made known to me, its application to this purpose seized on my mind. Experiment had proved it possible, by the method described at the commencement of this record, to generate and collect it in amounts practically unlimited.
(Read more about apergy)

Prior methods for spacecraft propulsion include the bird-like Gansas of Bishop Godwins 1638 book The Man in the Moone. Next came gunpowder, which was used in the colossal Columbiad launching cannon used in Jules Verne's 1867 novel From the Earth to the Moon. Neither method accelerated travellers to an appreciable fraction of light-speed.

As far as I know, the only real, working example of using large masses for "gravitational propulsion" is the well-known "slingshot" or "gravity assist" method used successfully in the Voyager, Galileo and Cassini programs. Historians of science differ on the source of the idea, but the basic idea was described by science fiction writer Ray Cummings in his 1931 novel Brigands of the Moon (see Ray Cummings' gravity assist).

Read Dr. Felber's paper "Exact relativistic 'antigravity' propulsion and news articles here and here.

http://arxiv.org/PS_cache/gr-qc/pdf/0505/0505099.pdf

http://www.nasaspaceflight.com/content/?id=4292

http://www.physorg.com/news10789.html