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Yes, a gun fires in space: modern cartridges carry their own oxidizer, so no air is needed. You hear nothing, because sound cannot travel through a vacuum. The recoil still kicks the shooter backward (Newton's third law), and with no air to slow it, the bullet keeps traveling almost forever unless it hits something or is caught by a planet's gravity.
Action movies, particularly during the adrenaline-pumping chase sequences, the action packed excursions, or daredevil stunts, all seem somewhat incomplete without a gun, or rather… a bullet.
In fact, due to the popularity and power of a bullet in flight, there have been many movies and shows that demonstrate the movement of a bullet fired from a gun, in ultra slow motion, so that viewers can trace the path of a bullet as soon as it leaves the muzzle to when it finally strikes its intended target.

This fascination with bullets has made people shoot everything from weather balloons and fruit to pieces of wood and panels of glass, but many curious minds have also wondered something else: What would it be like to shoot a bullet in space?
Pull The Trigger
Firing a bullet is not much different in space than it is on Earth. The process of shooting, at least, is exactly the same. You might assume a gun needs air to fire, but it doesn’t: a modern cartridge carries its own oxidizer mixed into the primer and propellant, so the gunpowder ignites just fine in a vacuum. In fact, a gun really has been fired in space. In January 1975, the Soviet military space station Salyut 3 (Almaz) test-fired a 23mm Rikhter cannon mounted on its hull, the only known firing of a gun in space, done remotely after the crew had left. So the gun works perfectly well out there. However, it is the journey of the bullet that is dramatically different.
First of all, when anyone fires a gun on Earth, the obvious thing one expects is to hear the boom of the gunshot, i.e., the sound of the bullet leaving the muzzle of the gun. However, since there is no sound in space (as sound waves cannot travel in a vacuum), you wouldn’t hear the blast of gunshot.
So, the first major difference is the built-in silencer for the gun. No sound of the gunshot.
Mr. Newton At Work
Now, for the more interesting phenomenon… When you are on Earth and fire a bullet (say using a rifle), there is a recoil from the gun. This is due to Newton’s third law of motion: for every action, there is an equal and opposite reaction. Therefore, when you fire the bullet and it goes forward, it exerts a force of the same magnitude in the opposite direction of its motion, namely backwards. This is why you feel a sudden and violent force pushing back on your shoulder when you fire (those who are not used to this kickback can often get injured).
Even after being impacted by such a strong force, your feet stay on the ground thanks to the force of gravity. The gravitational pull of Earth keeps you planted on the ground, and friction under your feet plus your own body weight absorb the kick, preventing you from flying backwards in the opposite direction of the bullet. Out in deep space, though, far from any planet to anchor you and with nothing to brace against, what would happen?
Yes, you’d begin flying in the opposite direction of the bullet’s motion. Does that sound like a good idea to you?
Dear Back, Be Careful!
The common phrase, ‘I’ve got your back’ takes on a special meaning in space.
When fired at a perfect horizontal alignment with the orbit of a planet, the bullet you fire can travel forward, be caught in the orbital swing, and then come around to hit the shooter in the back of his body.

It seems pretty unbelievable, but if the conditions are perfect, firing a gun might not be healthiest idea for the shooter. This seemingly one-in-a-million chance is because the planet’s gravity continuously bends the bullet’s path into a curve; if you fire it fast enough and exactly parallel to the surface, that curve can close into a full orbit, bringing the bullet all the way around to strike the shooter from behind after one revolution.
Although the conditions would have to be accurate to an insanely high degree for this to happen, it is certainly not impossible. However, I ‘m sure that the person firing the bullet wouldn’t try to make the conditions that perfect.
Distance Traveled By The Bullet
Although the speed of the bullet would be relatively the same as its speed on Earth, the distance it travels would be very, very different.
On Earth, you could expect a bullet to travel a few miles before falling to the ground, because the force of gravity from the Earth is acting on it, pulling it down to the ground and robbing it of its much-needed energy to continue flying. In space, however, you can expect the bullet to go on and on, possibly forever. There is no air, so there is no friction or drag to slow it down or alter its course, and once it is far from any planet there is no strong gravitational pull to rob it of speed. By Newton’s first law, an object in motion stays in motion unless something acts on it, so the bullet simply keeps coasting at nearly its muzzle speed until it eventually hits something or is captured by a star or planet’s gravity. In fact, because the universe is expanding and that expansion stretches the distances between far-off galaxies faster than the bullet can cross them, a bullet fired into truly empty space might never catch up to anything at all.
Overall, shooting a bullet in space is something that someone out there should definitely try (if possible, obviously). I would imagine that watching the bullet you just fired flying into the infinite abyss of darkness must be quite a sight to behold!













