No, the ak47 cannot shoot in space. Guns generally rely on a system of rapidly-expanding gases produced by the burning of gunpowder to propel a projectile out of them. This system does not work in space as there is no air and thus no combustion taking place.
In space, there is a vacuum and thus no expanding gases to propel bullets, rendering traditional guns useless. Even if the bullet was able to somehow be propelled, the lack of atmospheric drag would cause the bullet to travel in a straight line until it eventually drifted off into space.
Would an AK 47 work in space?
No, an AK 47 would not work in space. While a gun can fire in a vacuum, the extremely low air pressure and lack of gas molecules to push the bullet out of the barrel significantly reduce the effectiveness of the gun.
Additionally, the propellant in traditional firearm cartridges relies on normal atmospheric pressure to provide the required amount of thrust to push the bullet out of the barrel. Without this pressure, the force needed to push the bullet faster than the speed of sound will not be sufficient to leave the barrel, and the bullet will not reach its target.
The AK 47 is not specially designed to work in a vacuum, so it would not be a viable weapon in space.
What happens if you fire gun in space?
Firing a gun in space is a difficult topic to address since it is impossible to actually fire a gun in space due to the lack of oxygen. In theory, if a gun were fired in the vacuum of space, the propellant in the gun would cause the bullet to move forward, but the lack of air would prevent the sound from carrying – meaning no sound would be heard.
The bullet itself would continue in a straight line until it ran out of momentum and fell back down to the source of gravity (i.e. the planet/celestial body you are on or orbiting). As for the recoil, that would be heavily dependent on the mass, size, and configuration of the gun and the propellant used.
Due to the lack of atmosphere, the bullet would eventually continue in its trajectory with no drag force to slow it down, making it a potential hazard for any other objects or people who might be in its path.
To reduce the risk of debris and projectiles in space, only non-explosive projectiles and propellants should be used.
Would a bullet travel forever in space?
No, a bullet would not travel forever in space. While unaided, nothing can travel faster than the speed of light, and thus can never be infinite. This means that, even in space, a bullet – or any other object, for that matter- would eventually slow down and stop due to friction and gravity.
Depending on the environment, this could happen fairly quickly.
In addition, a bullet will eventually lose momentum due to air resistance, even in a vacuum. This is because a vacuum still has very small particles that the bullet can bump into as it passes through.
When this happens, the bullet will lose some of its energy and momentum.
Finally, even if a bullet were able to miraculously avoid friction and air resistance forever, it would still eventually run out of energy and be unable to move any farther. This is because it derives its energy from the force that propels it forward, which is finite.
Would a body decompose in space?
No, a body would not decompose in outer space, due to the environment and the lack of oxygen. Outer space is extremely cold and the vacuum means that there is no air to accelerate the process of decomposition.
Without oxygen and the right temperature, any living organism, regardless of its size, would remain unchanged forever, including a body.
A study done in 2010 on a European satellite orbiting earth analyzed two pig carcasses, with similar results. The experiment also showed that the pig’s skin, bone, and internal organs remained fully intact in the vacuum of space.
The pigs were exposed to over 550 days of extreme temperatures ranging from -60 to 130 degrees Fahrenheit, and the bodies remained unchanged, apart from the freezing of the internal fluids and the dehydration of the skin and the soft tissues.
In conclusion, a body would not decompose in outer space. The temperature and lack of oxygen in the environment would not allow the process to occur.
Would guns be lethal in space?
No, guns would not be lethal in the vacuum of space. Weapons such as guns rely on the transfer of kinetic energy from the bullet or projectile to cause damage, which is governed by the law of conservation of momentum.
In the vacuum of space, there is nothing for this kinetic energy transfer to take place against. As a result, bullets fired in space would not have enough momentum to cause damage once they left the barrel of the gun, much like throwing a ball in the air and watching it slowly drift away in the Zero Gravity environment of outer space.
Furthermore, without air, a firearm wouldn’t be able to fire correctly. This is because firearms derive the majority of their power from an explosion created in a chamber using a combination of air and gun powder.
Without air, no explosion or combustion would occur and therefore no bullet or projectile would be expelled from the gun, rendering it completely useless.
Would you hear a gunshot in space?
No, you would not hear a gunshot in space because sound waves can’t travel in the vacuum of space. Sound waves require air molecules to move through in order to create a sound wave that we can hear. Without any material in the space between two points, then the sound wave can’t pass from one object to another.
Therefore, a gunshot or any sound wave would not be heard in the vacuum of space.
Can you fire missiles in space?
Yes, missiles can be fired in space. In fact, missiles have been fired in space since the early days of rocketry and the space age. Missiles are typically propelled by rocket engines and are typically used to intercept other objects in space, such as enemy satellites, asteroids, and other incoming threats.
The US, Russia, China, and other nations have all fired missiles into space in order to test and research aerospace technologies. In the more recent years, missile technology has been used in military operations, allowing nations to launch missiles into space with the intent of striking military targets.
While there are still many dangers associated with firing missiles in space, the technology used for firing missiles in space is far advanced and is not considered a major threat to other spacecraft or astronauts on board.
Does the US have kinetic weapons in space?
Yes, the US does have kinetic weapons in space. While the US has primarily focused its military activity in space on defensive capabilities such as surveillance and communications, the US has long been developing kinetic weapons for use in space.
Kinetic weapons consist of non-explosive projectiles to either destroy or disable a target and are seen as preferable due to their lack of debris which can cause disruptions to operational spacecraft.
In recent years, the US has made strides to make kinetic weapons operations in space more effective. In 2018, the US tested the first weaponized projectile launched from a megawatt-class upper-stage solid rocket motor, replacing earlier models such as the Molniya booster rocket.
The weaponized projectile tested has the ability to move independently in space and hit target spacecraft at speeds greater than five miles per second. However, the exact details and capabilities of the kinetic weapons in use by the US are still classified.
Can a gun be fired underwater?
Yes, a gun can be fired underwater, however, the effectiveness of the shot is greatly affected because of the conditions. Generally, it is still possible to fire a gun underwater and have some effect on the target, although accuracy and range will be significantly impaired.
The difficulties of shooting underwater stem from the fact that water is much denser than air and creates drag or friction on the bullet. This drag makes it more difficult for the bullet to reach its target and prevents it from having the same speed, force, and accuracy as when it is fired in air.
Furthermore, most guns require an atmospheric seal in order to build up enough pressure to fire. So, in order for a gun to even be able to fire underwater, it must be specially modified with a waterproofing coating and a more powerful round to compensate for lack of pressure.
Would a bullet fired on the moon orbit?
No, if a bullet was fired on the moon, it would not orbit. This is due to the fact that there is no atmosphere on the moon, and therefore no air resistance to slow the bullet’s motion once it is fired.
Also, its weight is much too small to significantly affect its own gravitational field, which is necessary for an object to orbit. Simply stated, a bullet is far too small and light to remain in orbit around the moon’s gravitational field.
Without the atmospheric drag and without enough weight to affect its own orbit, the bullet will continue in a straight trajectory until it slowly loses its momentum and eventually comes to a stop.
Can you see the US flag on the moon?
No, you cannot currently see the US flag on the moon. The US flag was placed on the moon during the Apollo 11 mission in 1969 and has since been bleached white by the ultraviolet radiation of the Sun and the degradation of its material.
The US flag that was planted on the moon is now unrecognizable; however, a replica of the flag, the “Moon US flag,” is on display and is similar to the one that was planted on the moon.
Is it OK to point a laser in the sky?
No, it is not OK to point a laser in the sky. The light from a laser can be very bright, and it can be a distraction or even a hazard for people who are flying. Pilots rely on their vision to fly safely, and bright laser lights can only put them at risk by temporarily blinding them or obscuring their vision.
This can lead to accidents or other dangerous situations. For example, a pilot may not be able to properly identify the terrain or objects around them, or may not be able to avoid other aircraft, leading to a potential collision.
In some countries, it is even illegal to point lasers in the sky and can result in fines or other legal penalties. Additionally, there are health risks from exposure to lasers. For these reasons, it is never a good idea to point a laser in the sky.