. 24/7 Space News .
New Antigravity Solution Could Enable Space Travel Near Speed Of Light

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.

Related Links
-



Memory Foam Mattress Review
Newsletters :: SpaceDaily :: SpaceWar :: TerraDaily :: Energy Daily
XML Feeds :: Space News :: Earth News :: War News :: Solar Energy News


First Rave Data Release Offers Clues To Milky Way Evolution
Aspen CO (SPX) Feb 13, 2006
An international team of astronomers released to the public the first data collected as part of the Radial Velocity Experiment, an ambitious spectroscopic survey aimed at measuring the speed, temperature, surface gravity and composition of up to a million stars passing near the sun.







  • ESA Seeking To Challenge Conventional Space Systems
  • NASA Outlines FY 2006 Operating Plan
  • Griffin Remarks To The National Space Club
  • Griffin Builds Hopes For Terrestrial Planet Finder And Hubble Rescue Missions

  • New Viewing Technique Bolsters Case For Life On Mars
  • Spirit Makes It Four Miles At Home Plate
  • Making 3D Images Of Fossils Will Have Applications Beyond Earth
  • Spirit Completes Fourth Mile On Mars

  • Sea Launch Re-Starts Countdown For Echostar X Launch
  • Sea Launch Lofts Echo Star
  • Russian Carrier Rocket To Orbit Japanese Satellite
  • JSAT Selects ILS Proton To Launch JCSAT-11 Satellite

  • NASA Awards Colorado Satellite Observation Grants
  • Converging Satellites Unlock Sudden Demise Of Hurricane Lili
  • Satellites Support Businesses Working For Sustainable Development
  • Keeping New York City "Cool" Is The Job Of NASA's "Heat Seekers"

  • New Horizons Set For A Comfortable Cruise Out To Jupiter And Pluto Transfer
  • Questioning Pluto
  • New Outer Planet Is Larger Than Pluto
  • New Horizon On Course For Jupiter Transfer To Pluto And Beyond

  • First Rave Data Release Offers Clues To Milky Way Evolution
  • New Antigravity Solution Could Enable Space Travel Near Speed Of Light
  • Sounding Off In Deep Space Makes For An Explosive Supernova
  • The Troubled Past Of Globular Cluster Messier 12

  • Ancient Impacts Created Man In The Moon
  • The Lunar Olympics
  • The Smell Of Moondust
  • SMART-1 To Crash Into Lunar Surface In August

  • Trimble Offers New Modular GPS Solutions For Construction Industry Applications
  • Tetra Tech Wins Federal Aviation Administration Satellite Navigation Assistance Contract
  • Lockheed Martin GPS Updates Enhance System Accuracy Up To 15 Percent
  • Putin And Ivanov Discuss Future Of GLONASS System

  • The content herein, unless otherwise known to be public domain, are Copyright 1995-2006 - SpaceDaily.AFP and UPI Wire Stories are copyright Agence France-Presse and United Press International. ESA PortalReports are copyright European Space Agency. All NASA sourced material is public domain. Additionalcopyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement,agreement or approval of any opinions, statements or information provided by SpaceDaily on any Web page published or hosted by SpaceDaily. Privacy Statement