You can drive 1000 miles before you stop to fill up, and it's just a smooth and comfortable ride the whole way. The Enterprise is like some enormous Cadillac SUV with dual gas tanks and four wheel drive. You'd have to stop for gas like 50 times during the trip, and probably have to take it to a service station at least twice to repair something. But a Ferrari can't drive at 200 mph across the entire United States. Voyager is like a Ferrari, it can hit really high speeds for (relatively) short distances. But they don't need to refuel nearly as often, either. Ships like the Galaxy class may not have quite the same top-end speed that the Intrepid class has. But in-universe, given that we know Voyager has had to basically stop and refuel from time to time, I figure it has more to do with the size of the gas tank. There have always been inconsistencies in how fast a particular warp speed happened to be. Now, this is probably an example of the writers not having decided how fast warp speed was yet. Encyclopedia Chronology TOS Tech Manual TNG Tech Manual DS9 Tech Manual TNG Companion DS9 Companion VOY Companion The Klingon Dictionary Mr Scotts Guide Inside Star Trek The Art of Star Trek Star Charts. Comparing the numbers, the Enterprise would be capable of traveling 2 or 3 times faster than the supposedly faster Voyager. Ships Fleets Weaponry Species People Timelines Calculators Photo Galleries. In one of the early episodes of TNG, the Enterprise was hurled to another galaxy, and they gave a distance and a time estimate for how long it would take to get back. Yet, it was going to take Voyager 70+ years to travel back from the Delta Quadrant. Voyager was supposed to be faster than the Enterprise. If the core and coils can sustain the performance, then the ship can sustain that speed. Now, the duration of this is purely up to the design tolerance of individual components. When dealing with variables in higher dimensions that relate to warp travel, there are other variables, such as hull geometry and warp field dynamics.īut, generally, a more powerful core and/or a smaller ship will mean a faster ship. So, yes, the ratio of power:field volume (and mass of the ship, to an extent) is a thing. Now, if you have a smaller hull, you require a smaller warp field, and the same amount of power supplied to that field will create a larger "bend" in subspace, which will facilitate faster travel. This "warp field" allows the vessel to move. In most Federation starships, power is supplied by a matter-antimatter reactor, usually referred to as a "warp core" because the vast majority of the energy output of this reactor goes to the warp coils, for the purpose of bending spacetime in a bubble around the ship. You have what would more accurately be termed a "warp drive system." This consists of at least, but not limited to, a power source, warp coils, hull (and associated support systems), and navigational deflector.
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