Gravity in the Re-imagined Series: Difference between revisions
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The answer is more likely magnetism. Vipers are launched with a magnetic catapult, and (as seen in "[[The Hand of God]]") can magnetically mate using their landing skids to a metal surface (in this case, the interior of a freighter). Like gravity, magnetism works in any direction, and takes little to maintain. Confirming this idea is a scene from the [[Miniseries]]. As ''[[Colonial Heavy 798]]'' lands in ''Galactica's'' port flight pod to offload passengers for the decommissioning ceremony, two spacesuited figures are working on the deck. The two crewmembers are floating, suggesting that artificial gravity is ''not'' in use. Reinforcing this are the [[Combat landing|combat landings]] done by Vipers. The fighters bounce very noticeably at high speeds but, unlike a rock skipping across a pond, the Viper bounces less ballistically, suggesting that a weaker force than normal gravity is at work. How the Vipers get from the upside-down flight deck to the right-side-up [[hangar deck]], however, is unknown. | The answer is more likely magnetism. Vipers are launched with a magnetic catapult, and (as seen in "[[The Hand of God]]") can magnetically mate using their landing skids to a metal surface (in this case, the interior of a freighter). Like gravity, magnetism works in any direction, and takes little to maintain. Confirming this idea is a scene from the [[Miniseries]]. As ''[[Colonial Heavy 798]]'' lands in ''Galactica's'' port flight pod to offload passengers for the decommissioning ceremony, two spacesuited figures are working on the deck. The two crewmembers are floating, suggesting that artificial gravity is ''not'' in use. Reinforcing this are the [[Combat landing|combat landings]] done by Vipers. The fighters bounce very noticeably at high speeds but, unlike a rock skipping across a pond, the Viper bounces less ballistically, suggesting that a weaker force than normal gravity is at work. How the Vipers get from the upside-down flight deck to the right-side-up [[hangar deck]], however, is unknown. | ||
==References== | ==References== |
Revision as of 13:18, 13 May 2007
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- Much of the information here was derived from the Wikipedia article on artificial gravity.
Of course, it's very practical for humans, who evolved in gravity, to have it aboard their ships.
Cinematically, it also makes it much easier for the show to keep production costs down by not having to simulate weightlessness on board the fleet in the Re-imagined Series.
That doesn't mean we can let the Colonial Fleet get away with just having artificial gravity without some explanation, especially given Ron D. Moore's Naturalistic science fiction principles of his show. From a science fiction perspective, this has always been the hardest "technology" to explain away in a show.
So far, the only information acknowledging the use of artificial gravity in the series comes from a few close-ups of computer displays, where the terms "Gravity control" and "synthetic gravity" are shown (look to the upper right of the picture shown).
From what scientists have theorized, gravity could be artificially generated in several ways:
- Rotation of the spacecraft to generate centrifugal forces within a spacecraft.
- This motion would push objects and people in the ship outward, so the outside skin of the ship would act as the "floor". This was done in the movie 2001: A Space Odyssey (the crew compartment inside the Discovery spun) and the TV show "Babylon 5" (the cylindrical space station spun on its longitudinal axis). One of the Fleet's ships in fact sometimes uses this form of artificial gravity: the Space Park. Viewers can get a good view of this ship in motion when the Fleet leaves Ragnar Anchorage in the Miniseries. It's specified that the ship's design dates from a period when centrifugal force was the main artificial-gravity solution in place, before whatever current technology is in use came into widespread use.
- Keeping the ship at constant acceleration, with the crew standing in the opposite direction of acceleration.
- Same principle that every astronaut experiences as their rocket launches into space and accelerates. This of course means that the ship must get progressively faster for eternity; stabilizing speed would lead to weightlesness, and stopping the ship would send everyone crashing into the ceiling.
- Place something with a lot of mass within your ship.
- This isn't artificial gravity, but the real thing. But there is the matter of the energies required to move your ship, the large gravity well that wants to attract other objects into your ship's general direction, and the shape of your ship. Gravity just works, pulling from every direction, so you would need a round ship to keep from strange changes in gravity aboard a ship. Worst of all, the amount of fuel needed to move a ship with a local mass concentration would be very high.
- Use tidal forces.
- Stretch a tether with a small mass between a large gravity source and the ship you want. Cheap, fuel-free, and reliable. There's the matter of actually being able to travel somewhere besides planetary orbit without losing gravity, however. Several ships from the science-fiction role-playing game series "Xenosaga," particularly the vessels Durandal and Dämmerung, appear to use a concept similar to this with masses rotating around the ship in a controlled orbit maintained by forcefields.
- Use magnetism.
- The term for this is diamagnetism. Based on the technologies we've seen in the Re-imagined Series (such as their use of magnetism for landing and launching Vipers)[1], this principle has the most viability, but is also fraught with huge problems in application.
- Everything has a magnetic attraction, but most objects (a human body included) have very little of it. Diamagnetism at the present time has mostly been used to repel two objects, i.e. to levitate one of them, instead of to attract them, as gravity would.[2]. Also, high magnetic field concentrations are probably not very healthy in the long term. [1]
Other, less-scientific possibilities that the writers could use include:
- Simulate gravity with force fields.
- The eponymous spaceship in the TV show "Andromeda" uses "gravity generators". The Star Trek universe has a similar concept. This seems to be a slap in the face of the realistic SF ethos since it has no basis in scientific plausibilty at present.
- Spacetime manipulation.
- The ability to do Faster Than Light travel indicates the Colonials have the advanced technology to manipulate the fabric of spacetime. This same ability might be harnessed to provide artificial gravitation. However, Galactica's FTL drives are often inactive on the show (they're inactive until they're "spun up"), while the gravity is always on.
So far the concept of artificial gravity in the show has yet to be explained.
What about the flight pods on Pegasus?
Unlike Galactica's, each flight pod on the advanced battlestar Pegasus are divided along its length into two landing bays. In "The Captain's Hand", Vipers are flying inverted (relative to the battlestar) and land in the bays "upside down." Is artificial gravity to be credited with this?
The answer is more likely magnetism. Vipers are launched with a magnetic catapult, and (as seen in "The Hand of God") can magnetically mate using their landing skids to a metal surface (in this case, the interior of a freighter). Like gravity, magnetism works in any direction, and takes little to maintain. Confirming this idea is a scene from the Miniseries. As Colonial Heavy 798 lands in Galactica's port flight pod to offload passengers for the decommissioning ceremony, two spacesuited figures are working on the deck. The two crewmembers are floating, suggesting that artificial gravity is not in use. Reinforcing this are the combat landings done by Vipers. The fighters bounce very noticeably at high speeds but, unlike a rock skipping across a pond, the Viper bounces less ballistically, suggesting that a weaker force than normal gravity is at work. How the Vipers get from the upside-down flight deck to the right-side-up hangar deck, however, is unknown.
References
- ↑ In the Miniseries, a preflight checkout and launch of the fighters can be seen. For launch, the launch tubes use a magnetic catapult ("magcat") to hurl the Vipers out. On landing, either magnetism or some blend of artificial gravity pulls Vipers to rest on the deck of the flight pod. This force appears to be just strong enough; note the bouncing that the fighters do as their landing skids hit the landing deck while they retreat to Galactica as it prepares to jump from Ragnar Anchorage at the conclusion of the Miniseries.
- ↑ Scientists on Earth have actually levitated a frog at a force of 1g (Earth's gravity), but it took a massive amount of cryogenically frozen hardware to do it, and that was using the magnet to push away from Earth's gravity, not push the object down.