Difference between revisions of "Gravity Control Technology"

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The significance of gravitic technology is that it made space travel practical. Before its advent, space travel was possible only by using reaction drives which meant the trip from ground to orbit was the most difficult, most expensive, and by far the most dangerous part of [[space flight]].  With gravitic technology, boosting payloads into orbit became easy, economical, and the least risky portion of space travel. The multistage rockets of the past culminating in SSTO lifters make way for the [[Z-Drive]] or [[Lifter]]s of today's [[TL-15]] [[Charted Space]].
 
The significance of gravitic technology is that it made space travel practical. Before its advent, space travel was possible only by using reaction drives which meant the trip from ground to orbit was the most difficult, most expensive, and by far the most dangerous part of [[space flight]].  With gravitic technology, boosting payloads into orbit became easy, economical, and the least risky portion of space travel. The multistage rockets of the past culminating in SSTO lifters make way for the [[Z-Drive]] or [[Lifter]]s of today's [[TL-15]] [[Charted Space]].
 
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== References & Contributors ([[Sources]]) ==
 
== References & Contributors ([[Sources]]) ==

Revision as of 01:42, 16 June 2019

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Gravity Control Technology is one of the major technological breakthroughs (the others are Nuclear Dampers and Jump Drives).

  • It is also know as: Grav Tech, Gravitics, Anti-grav, and Contragrav Technology.
  • It is available in limited prototype forms at TL:7-9, but really comes of age at TL:10-12 or higher.
  • Please see Gravcraft for examples of vehicle that use Gravity control technology.

Please see the following AAB Library Data articles for more information:

Description (Specifications)

The gravity control produces both weight neutralization and thrust.

This control of the force of gravity allows construction of vehicles, like the Air/Raft and G-Carrier, mapping of object mass through Densitometers, and safety equipment like the Grav Parachute.

While not often correlated by most people, historians have noted that the advent of practical fusion power plants is the result of applied gravitic compression of the fissionable fuels. Some mass-thrusters also rely on the gravitic compression of hydrogen to a near-fusion energy level. The ability to warp space-time and induce a jump is directly related to the control and understanding of gravitics. The Terran system failed to comprehend and use gravitics for many years, which delayed the Solomani expansion.

History & Background (Dossier)

The first gravcraft, or vehicles employing gravity control technology appear around (TL–9). However, the TL-9 prototypes, even the ones that went into mainline production, had severe limitations, and the technology didn't truly go mainstream until the TL:10-12 technological epoch.

The significance of gravitic technology is that it made space travel practical. Before its advent, space travel was possible only by using reaction drives which meant the trip from ground to orbit was the most difficult, most expensive, and by far the most dangerous part of space flight. With gravitic technology, boosting payloads into orbit became easy, economical, and the least risky portion of space travel. The multistage rockets of the past culminating in SSTO lifters make way for the Z-Drive or Lifters of today's TL-15 Charted Space.

References & Contributors (Sources)

This list of sources was used by the Traveller Wiki Editorial Team and individual contributors to compose this article. Copyrighted material is used under license from Far Future Enterprises or by permission of the author. The page history lists all of the contributions.
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