Will it be possible to travel at the speed of light?

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Greetings dear friends.

If something has fascinated us in science fiction movies about space, it is the ability to travel at the speed of light, and to go from one planet to another in an instant. But although in the movies it seems something very easy, as simple as changing speed in the car, in real life it is something extremely complicated, and even theoretically impossible.


Traveling at the speed of light is not as simple as the movies make us see it. Source: pixabay.com.

According to Albert Einstein and his famous theory of relativity, it seems that we are doomed to travel at speeds slower than light, and with his famous equation of the theory of special relativity E=mc2 he seems to warn us of this.

In the equation, E is the energy, m is the mass of an object and c is the speed of light, which in a vacuum is 299,792.458 kilometers per second, something like 1,080,000,000,000 kilometers per hour, a pretty impressive value isn't it?

This simple equation tells us that a body that has mass also has energy, and even if the object is very small, it has a lot of energy. But to understand the difficulty of traveling at the speed of light we must complete the expression as follows, E2 = (mc2)2 + (pc)2, which includes the term pc associated with the amount of motion. That is, the energy of an object is the sum of its rest energy and the amount of motion.

The above expression tells us that as we accelerate an object, the more energy we will need to continue accelerating it, since both components of the equation increase, so the closer we get to the speed of light the faster the mass of the object increases, when approaching the speed of light the mass tends to infinity so the energy must be infinitely large as well.

Therefore objects can only move at speeds lower than the speed of light, even more so if they have a lot of mass, making it almost impossible for a ship as large as the Millennium Falcon to cross space to reach Tatooine in a short time.

But, although large bodies cannot accelerate to the speed of light, the truth is that in the universe there are particles that can accelerate to surprisingly high speeds, even reaching 99% the speed of light. And the study of these particles is of great interest to modern science, not only because it is important to protect spacecraft from such particles, but also because they could provide knowledge that could lead to the development of new propulsion systems.

And in fact, there are ways to accelerate particles to near-light speeds, and the Phys.org portal presents three ways:

Electromagnetic fields

Electromagnetic fields can accelerate charged particles, pulling them in a similar way as gravity pulls objects with greater mass. Some of you may have heard of particle accelerators such as the Large Hadron Collider, a gigantic structure where, using electromagnetic fields, particles can be accelerated to speeds up to 99.999% the speed of light, and then made to collide and produce large amounts of energy and elementary particles like those that originated during the Big Bang.


View of a section of the Large Hadron Collider, supermagnets accelerate particles to incredibly high speeds. Source: Wikipedia.com.

Magnetic explosions

When magnetic fields collide with each other, they become entangled, and when the tension between them becomes too great, the magnetic field lines are broken and explosively realigned. This rapid shift to reconnect causes charged particles to travel at incredibly high speeds.

Scientists study this magnetic reconnection, suspecting that it is how the solar wind propels particles in space at near-light speeds, and hope to understand how particle acceleration around the Earth can occur.


In the space surrounding the Earth, invisible explosions are constantly occurring as a result of magnetic field lines breaking and realigning, shooting particles through space. Source: pixabay.com.

Wave-particle interactions

When electromagnetic waves collide their fields can be compressed, and the charged particles bouncing between the waves gain a lot of energy, like a kind of ball bouncing between two walls approaching each other.

This interaction between waves and particles is very common in near-Earth space and is responsible for accelerating particles to surprisingly high speeds, even damaging the electronics of satellites and spacecraft in space. It also originates in distant space and is thought to be the way to drive some cosmic rays originating from outside our solar system, it is also thought to be the way to drive the solar wind.


The solar wind is a stream of charged particles released from the Sun's upper atmosphere at high speed. Source: pxhere.com.

While the science of propelling large objects at near-light speeds through space still seems distant and only possible in science fiction, the reality is that waves and particles are propelled at this speed very frequently through space, and even on earth the way to accelerate these particles is being replicated to understand how they move, and to protect spacecraft and astronauts from their effects on electrical components and also, perhaps in the future, to develop propulsion systems that will allow spacecraft to be accelerated to incredibly high speeds.


Thanks for coming by to read friends, I hope you liked the information. See you next time.




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(Edited)

objects can only move at speeds slower than the speed of light

yes and I don't think that anything can compete with the speed of light. LIght is not an object so it has the highest speed.

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yeah well I a nice idea and cool to hear but not possible as of now

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That's right my friend, at the moment only light and practically massless particles are the only ones capable of achieving such high velocities.

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It might be possible in the future but now it's not If try you will turn into charcoal and no one will be able to collect it

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haha... That's right, there is no ship that can tolerate such high speeds, the current ships are very fragile, even our body would not withstand such pressure.

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yeah it won't stand a millisecond of such speed

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