That sounds impressive, but it's still only 0.001% the speed of light. The fastest human-made objects are spacecraft. They use rockets to break free of the Earth's gravity, which takes a speed of 25,000 mph (40,000 km/h).
It's possible to get something to 1% the speed of light, but it would just take an enormous amount of energy.
Nothing can travel faster than 300,000 kilometers per second (186,000 miles per second). Only massless particles, including photons, which make up light, can travel at that speed. It's impossible to accelerate any material object up to the speed of light because it would take an infinite amount of energy to do so.
“Based on the physics that has already been accrued, velocities beyond 10% the speed of light will be very difficult to achieve,” Millis says. “We are not in danger yet.
To summarize, according to the immutable laws of physics (specifically, Einstein's Theory of Special Relativity), there's no way to reach or exceed the speed of light.
That depends on how fast you're traveling. Thanks to Einstein, we know that the faster you go, the slower time passes--so a very fast spaceship is a time machine to the future. Five years on a ship traveling at 99 percent the speed of light (2.5 years out and 2.5 years back) corresponds to roughly 36 years on Earth.
Albert Einstein's special theory of relativity states that photons—or particles of light—travel at a constant speed of 670,616,629 miles per hour. As far as we know, nothing can travel faster than this. But across the universe, particles are often accelerated to 99.99 percent the speed of light.
We can never reach the speed of light. Or, more accurately, we can never reach the speed of light in a vacuum. That is, the ultimate cosmic speed limit, of 299,792,458 m/s is unattainable for massive particles, and simultaneously is the speed that all massless particles must travel at.
The speed of light in a vacuum is an absolute cosmic speed limit. Nothing can go faster than 3.0 x 108 meters per second (that's 300,000,000 m/s or 1,080,000,000 km/h!).
Proxima Centauri is 4.2 light-years from Earth, a distance that would take about 6,300 years to travel using current technology. Such a trip would take many generations.
If you were able to travel to Alpha Centauri, roughly 4.25 light years away, at 99.9 percent the speed of light, you'd be able to see the time dilation more clearly. The trip would seem, from the perspective of an observer on Earth, to take a little more than 4.25 years.
Re: How would you age at the speed of light
The simple answer is, anything moving through space at c, equal to the speed of light in a vacuum, experiences zero time flow. If you were to travel at the speed of light, you would experience no time.
The speed of light traveling through a vacuum is exactly 299,792,458 meters (983,571,056 feet) per second. That's about 186,282 miles per second — a universal constant known in equations as "c," or light speed.
According to relativity, mass can never move through the Universe at light speed. Mass will increase to infinity, and the amount of energy required to move it any faster will also be infinite. But for light itself, which is already moving at light speed… You guessed it, the photons reach zero distance and zero time.
While 1% of anything doesn't sound like much, with light, that's still really fast – close to 7 million miles per hour! At 1% the speed of light, it would take a little over a second to get from Los Angeles to New York. This is more than 10,000 times faster than a commercial jet.
Darkness travels at the speed of light. More accurately, darkness does not exist by itself as a unique physical entity, but is simply the absence of light. Any time you block out most of the light – for instance, by cupping your hands together – you get darkness.
According to Einstein's theory of special relativity, published in 1905, nothing can exceed the speed of light. That speed, explained Einstein, is a fundamental constant of nature: It appears the same to all observers anywhere in space.
So, according to de Rham, the only thing capable of traveling faster than the speed of light is, somewhat paradoxically, light itself, though only when not in the vacuum of space. Of note, regardless of the medium, light will never exceed its maximum speed of 186,282 miles per second.
So light is the fastest thing. Nothing can go faster than that. It's kind of like the speed limit of the universe.
In fact, if the traveler was going at 99% the speed of light (a supposed trip of just over a year), according to him, his trip would only take 52 days to complete! These concepts of time dilation and special relativity are especially interesting to ponder.
In a new study, scientists discovered the fastest of these stars, S4714, which orbits around Sgr A* at more than 8% of light speed, or 15,000 miles per second (24,000 km/second), faster than any other known star.