A bullet can travel a great distance in water. It is not uncommon for a bullet to travel several hundred yards in water. There are many factors that affect how far a bullet will travel in water, such as the type of gun, the type of ammunition, and the depth of the water.
The deeper the water, the more resistance there is to the bullet, and therefore, the shorter the distance it will travel.
A bullet will travel a much shorter distance in water than it will in air. The reason for this is that water is much more dense than air, and thus offers significantly more resistance to the bullet. In general, a bullet will travel about 1/4 to 1/5 as far in water as it will in air.
So, if a bullet can travel 1000 yards in air, it would only be able to travel 250-500 yards in water.
How Far Will a 9Mm Bullet Travel in Water
A 9mm bullet can travel up to 1,500 feet in water. It is important to remember that a bullet can travel farther in water than it can in air because water is more dense than air. The density of water slows the bullet down, but it does not stop the bullet completely.
A 9mm bullet will eventually come to a stop, but it will take a much longer distance to do so than if the bullet were fired in air.
How Far Will a 7.62 Bullet Travel in Water?
Assuming you are referring to the popular 7.62x51mm NATO round, its muzzle velocity is about 2,800 ft/s. In water, however, that number drops significantly due to the increased drag on the bullet. To be more specific, a 7.62x51mm bullet will travel about 1 meter in water for every 15 meters it would travel in air under the same conditions.
So if you fired your gun straight down into water from a height of 30 meters (about 98 feet), the bullet would only travel about 2 meters (6 feet) before coming to a stop. Of course, this all assumes that the gun and ammunition are in good working order and that there are no obstacles in the water that could deflect or stop the bullet. Bullets can also ricochet off of hard surfaces like concrete or rock, so even if you’re shooting at a target that’s submerged, there’s no guarantee that the bullet will go where you want it to.
What Happens When a Bullet Enters Water?
When a bullet enters water, it instantly decelerates and loses all of its kinetic energy. The average person can withstand the impact of a bullet if it is travelling at around 30 m/s (108 km/h), but if the bullet is travelling any faster than that, it will most likely prove fatal. Bullets typically enter water with velocities ranging from 300-700 m/s (1086-2462 km/h).
Do Bullets Work Underwater?
Though it is commonly thought that bullets fired underwater will not travel fast enough to be lethal, this is not necessarily the case. Bullets do work underwater, but they are significantly less effective than when fired in air. The reason for this is twofold: first, water is much more dense than air, and second, a bullet fired underwater creates a large bubble of gas around itself as it travels.
This bubble seriously disrupts the bullet’s trajectory and makes it much less accurate. So while a bullet fired underwater can certainly kill someone, it is not nearly as effective as firing in air. If you find yourself in a situation where you need to fire your weapon underwater, aim for the head or center mass of your target – and hope for the best!
Do Bullets Travel Faster Through Water?
No, bullets do not travel faster through water. In fact, they travel more slowly because water is more dense than air. Bullets are designed to travel quickly through air, but when they enter water they encounter resistance from the water molecules.
This resistance slows the bullet down and can cause it to change direction.
A bullet can travel a great distance in water, depending on the type of gun and ammunition being used. For example, a high-powered rifle can easily shoot a bullet over a mile away, while a handgun will only be able to fire its bullets about 100 yards. The depth of the water also plays a role in how far the bullet will travel; if the water is shallow, then the bullet will not travel as far as it would in deeper water.