Can warp drive go faster than light?
A spacecraft equipped with a warp drive may travel at speeds greater than that of light by many orders of magnitude. In contrast to hyperspace, spacecraft at warp velocity would continue to interact with objects in “normal space”.
Can we ever travel the speed of light?
So will it ever be possible for us to travel at light speed? Based on our current understanding of physics and the limits of the natural world, the answer, sadly, is no. So, light-speed travel and faster-than-light travel are physical impossibilities, especially for anything with mass, such as spacecraft and humans.
What is the difference between a warp drive and a wormhole?
While warp drive involves moving at a certain speed, wormholes are theoretical structures that allow spaceships to travel from one point to another by tunneling through hyperspace. Effectively, they would let ships take a shortcut since they technically remain bound to normal space-time.
What is the warp drive and how does it work?
Warp drive doesn’t actually exist yet. But, it’s theoretically possible. It allows the science fiction ships to get across space by moving faster than the speed of light. That’s an important aspect since lightspeed is the ultimate cosmic traffic law. This is because, as far as we know, nothing can move faster than light.
Is it possible to travel through wormholes?
It wasn’t till 1973 that Homer Ellis discovered a “traversable” wormhole, one that you could actually travel through, in Einstein’s equations. Like warp drive, building a wormhole would also turn out to be a challenge. To create such a large distortion in spacetime you would need to connect two black holes (one for each end).
Could a warp drive have negative energy?
Physicists have never observed negative mass, so that leaves negative energy as the only option. To create negative energy, a warp drive would use a huge amount of mass to create an imbalance between particles and antiparticles.