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If fired from a rifled firearm, it spins.
after a bullet is shot in the air it travels 4,000 ft in the air and takes 59 seconds to a minute to come down
A bullet hardly slows down at all after being fired. While bullets come in a variety of shapes, sizes and weights, they are all failry aerodynamic and thus minimally impacted by the wind resistance (friction). A bullet's primary enemy is actually gravity. Once fired, it is a matter of time before gravity pulls the bullet crashing down into the earth...assuming it does not strike something first. While a high powered rifle will send a bullet farther and faster than a .38 pistol, fired from the same height, at the same trajectory over level ground, they will have almost identical hang times. Again, the faster bullet will simply go farther. The speed loss for any bullet, (buck shot not included) is negligible. It will strike the ground or object in its way with almost the same speed as when it was fired no matter how far away it is. This is of course excluding shots in the air where there is little horizontal movement and the trajectory is mostly verticle. Here, obvioulsy, gravity will take over and the bullet will ultimately fall back to the ground at the terminal velocity - much slower than muzzle velocity.
Two factors- air resistance and gravity. Air resistance is simply slowing the bullet down by having to push air out of the way. Gravity acts on bullets the same way it works on a baseball- it pulls the bullet down. How far a bullet will travel is a function of it's speed, it's shape and size (air drag) and the angle in relation to the earth it was fired along. But sooner or later, they all come back down.
It has gravity pulling it down, inertia pushing it forward, the spin of the bullet causing it to curve VERY slightly, and air resistance slowing it down.
That would depend on the mass of the bullet, the bullet's velocity when it left the barrel of the gun, and from how high up the bullet was fired from.
The velocity of a bullet coming down from altitude is the terminal velocity of the bullet fired. Since not all bullets are equal in mass, it would depend on the grain (weight) of the bullet fired, the caliber of the bullet, and the charge behind the bullet (which would determine the highest possible altitude it could reach). To determine the terminal velocity of any bullet, you must first know these variables and plug in those variables to the equation below: That is, * Vt = terminal velocity * m= mass of the bullet * g = gravitational acceleration * Cd = drag coefficient (wind resistance applied to the bullet as it falls) * ? = denisty of the medium through which the bullet is falling (the atmosphere) * A = projected area of the bullet (which can get complicated due to the shape of the ball). Essentially, the following is true: any bullet fired straight upward is not only potentially but very likely as deadly to anyone it might strike when it lands as if that same bullet were fired directly at that person.
If fired from a rifled firearm, it spins.
after a bullet is shot in the air it travels 4,000 ft in the air and takes 59 seconds to a minute to come down
He was shot down by a bullet in his heart, apparently fired by a rifle on the ground.
A bullet hardly slows down at all after being fired. While bullets come in a variety of shapes, sizes and weights, they are all failry aerodynamic and thus minimally impacted by the wind resistance (friction). A bullet's primary enemy is actually gravity. Once fired, it is a matter of time before gravity pulls the bullet crashing down into the earth...assuming it does not strike something first. While a high powered rifle will send a bullet farther and faster than a .38 pistol, fired from the same height, at the same trajectory over level ground, they will have almost identical hang times. Again, the faster bullet will simply go farther. The speed loss for any bullet, (buck shot not included) is negligible. It will strike the ground or object in its way with almost the same speed as when it was fired no matter how far away it is. This is of course excluding shots in the air where there is little horizontal movement and the trajectory is mostly verticle. Here, obvioulsy, gravity will take over and the bullet will ultimately fall back to the ground at the terminal velocity - much slower than muzzle velocity.
Stupidity.
Two factors- air resistance and gravity. Air resistance is simply slowing the bullet down by having to push air out of the way. Gravity acts on bullets the same way it works on a baseball- it pulls the bullet down. How far a bullet will travel is a function of it's speed, it's shape and size (air drag) and the angle in relation to the earth it was fired along. But sooner or later, they all come back down.
It has gravity pulling it down, inertia pushing it forward, the spin of the bullet causing it to curve VERY slightly, and air resistance slowing it down.
It's unlikely, but possible. A bullet fired through the skin of the plane (through aluminum) will make a small hole, which will cause a pressure leak. The cabin pressure system can compensate for several such leaks. If a bullet is fired through a window, the window might blow out, causing the cabin to lose pressure fairly quickly--the cabin pressure system can't compensate for a hole that big. While that is hazardous to the passengers, it won't bring down the plane. (Although, the pilots will immediately dive to a lower altitude to recover some cabin pressure). A bullet that punctures a fuel tank or fuel line might lead to a fire which would bring down the plane.
It would kill you although the chances of a bullet returning to earth at the precise spot you fired from would be very unlikely.
The sound may or may not "come first" when a bullet is fired. Particularly if we make the decision after collecting data from down range. The muzzle velocity of some firearms does notexceed the speed of sound. In those cases, the sound will reach a "target" down range before the bullet does. But the muzzle velocity of other firearms does exceed the speed of sound, and in those cases, the bullet will arrive down range before the sound does.