What would happen if you moved at the speed of light?

What would happen if you moved at the speed of light?

Getting to that speed in the first place would be the most difficult challenge.

People frequently discover a means of traveling at the speed of light in science fiction. However, you could wind up asking, might your body at any point endure going so quick? How would it be used?

In the first place, we should expect that it is conceivable — however it isn't — for a human to move at the speed of light, which is 299,792,458 meters each second (983,571,056 feet each second), or around 186,000 miles each second. There's no issue, as such, with an individual moving at an extremely quick consistent speed. People can't feel consistent speed, so you wouldn't be guaranteed to see you were moving that quick.

Acceleration—actually reaching that speed—would be your biggest challenge. An excessive amount of speed increase power can damage, and even kill, us. At high speed increases, "your blood will struggle with siphoning to your limits," said Michael Pravica, a teacher of material science at the College of Nevada, Las Vegas.

Most people can deal with speed increase powers of around four to multiple times that of gravity (4 to 6 g) for a brief timeframe. As the g-force builds, your body's capacity to circle your blood from your feet to your head becomes restricted. As your blood pools, you will drop, and on the off chance that the power doesn't diminish or stop, you will ultimately kick the bucket as your body is famished of the oxygen your blood transports all through your body.

Military pilots and others who experience elevated degrees of g-force are trained procedures to hold back from dropping, like straining muscles in their furthest points, and they utilize extraordinary suits to endure up to 9 g for brief timeframes. However, if you somehow managed to advance rapidly to light speed shortly — like in the "Star Wars" motion pictures — you would immediately turn into a human flapjack as the power of more than 6,000 g rammed into you, as per Omni Number cruncher's g-force mini-computer.

To advance rapidly to light speed all the more securely — say, at 2 g — it would assume control more than five months to advance to light speed, expecting you were moving in an orderly fashion and there was no air opposition. At 1 g, the speed increase of fast drop, it would assume control more than 11 months.

Unfortunately, it turns out that it is impossible to reach this high a speed. You can't go at the speed of light, considering that you have a limited mass," Pravica said.

Einstein's hypothesis of exceptional relativity shows that as an article with mass draws nearer to the speed of light, the mass begins to increment as it approaches the speed of light, Pravica said. In the event that an article could arrive at the speed of light, it would turn out to be vastly monstrous and would require boundless energy to keep up with that speed.

In any case, people have gotten a things to go extremely, quick — in the event that you can refer to subatomic particles as "things." Molecule gas pedals can get particles like electrons to more than 99.9% the speed of light, Pravica said. Yet, there's a major contrast between getting an electron to move that quick and sending off an individual at that speed, which would require such a lot of energy as to be incredibly implausible, regardless of whether it violate the laws of physical science.

On the off chance that you could move at close to light speed, you would encounter the impacts of relativity on time, Pravica said. Your perception of time would remain unchanged, despite the fact that time would move more slowly for you than it would for people moving at more typical speeds. On the off chance that you could notice individuals moving at "ordinary" speed, Pravica said, they would seem, by all accounts, to be moving in sluggish movement.

There is one sense in which we could move at near the speed of light. Our planet and all that in the universe are continually moving. Earth is turning and spinning around the sun, and, surprisingly, our cosmic system is moving. It's conceivable that assuming that we were creating some distance from a universe rapidly — and that world were likewise getting away from us — we would be moving, comparative with that cosmic system, at close to the speed of light. The fact that we as of now are makes it possible.

"That is the very thing that Einstein showed," Pravica said. " Everything is relative."