Space Ships faster than light.

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SUMMARY

The discussion centers on the concept of utilizing a dense electron field around a spacecraft to prevent energy absorption, thereby allowing for faster-than-light travel. Gerald L. Blakley proposes that if a spacecraft emits an electron force field, it could theoretically prevent the material of the spacecraft from expanding due to energy absorption while in motion. This idea distinguishes between electron fields and electromagnetic fields, emphasizing the unique properties of electron fields in this context.

PREREQUISITES
  • Understanding of electron fields and their properties
  • Knowledge of spacecraft dynamics and energy absorption
  • Familiarity with the principles of faster-than-light travel theories
  • Basic concepts of electromagnetic fields and their differences from electron fields
NEXT STEPS
  • Research the implications of electron fields in theoretical physics
  • Explore existing theories on faster-than-light travel, such as warp drives
  • Study the role of energy absorption in spacecraft materials
  • Investigate the differences between electron fields and electromagnetic fields in detail
USEFUL FOR

Physicists, aerospace engineers, and enthusiasts interested in theoretical space travel and advanced propulsion concepts.

OnTheCuttingEdge2005
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Dear Michio Kaku.

I wanted to ask a question about traveling in space with a space ship.

If a spacecraft emits a dense electron field around itself extended
out to space in all directions from the craft, Wouldn't this electron
force field (Electrons themselves) allow the material of the space
craft to not absorb energy to the ship itself, (If a system cannot
absorb energy then it cannot expand).

All materials act as antennas if they are moving through space, The
antenna in motion would collect energy and expand until it can no
longer expand as a single material.

If that antenna had an electron force field around it dense enough to
absorb incoming energy while in motion then the electron field would
expand but the antenna should change little in mass.

This above question relates to only Electron fields and not
Electromagnetic fields radiated from electrons.

Gerald L. Blakley
 
Science news on Phys.org
Mr. Blakley, I do not believe Dr. Kaku ever checks this site, and I don't know how to reach him.
 
Dr. Kaku has amazingly written to some of us over the years, including onthecuttingedge yet he never shows up at the forums. Only once-in-a-blue-moon chats.
He's a fast typist but I guess too busy for forums.
 

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