The distance a 115 gr 9mm bullet can travel depends on various factors such as the muzzle velocity, barrel length, bullet design, and atmospheric conditions. On average, a 115 gr 9mm bullet fired from a typical handgun can travel up to around 1000-1500 meters (3280-4921 feet) before losing its effectiveness.
Velocity of .50 BMG (Browining Machine Gun, 660 gr to 720 gr bullet weights ) projectile within 20 feet of the muzzle will between 2750 and 2850 feet per second, depending upon the cartride.It depends on the weight and shape of the bullet, as well as the amount of powder used, but a good average would be from 2800 feet per second to a little over 3000 feet per second when shot from a rifle. There have been reports of greater speeds (in the 4000 to 5000 fps range) perhaps with sabot rounds.
120 gr = 7.77588 g120 gr = 7.77588 g120 gr = 7.77588 g120 gr = 7.77588 g120 gr = 7.77588 g120 gr = 7.77588 g
There are 15.432 grains (gr) in a gram.
The answer will vary with the weight/ velocity of the bullet. Using an average velocity 165 gr bullet, a 30-06 rifle zeroed at 200 yds will strike ABOUT 15 inches below line of sight at 350 yds.
Bullets fired from a rifled firearm should NOT tumble in flight. If they do so, it is a sign of problems. This may be caused by different matters that all relate to the rifling in the firearm, and the bullet. First is rifling is badly worn, if the bore is oversized for the bullet, or if rifling is badly fouled with lead/ jacketing metal/powder deposits, the bullet will not be gripped by the rifling and spun, and may not be stable in flight (tumbling) Try cleaning the bore properly, and check for excessive wear at the muzzle. The second condition is the wrong weight/length of bullet for the rate of twist of the rifling. A fast rate of twist, combined with a very fast bullet, MAY result in the bullet "stripping", and not being spun by the rifling. Or a very heavy, slow bullet may not be spun fast enough to stabilize the bullet. Most .22 rimfire rifles are rifled to shoot 40 grain bullets accurately. If loaded with a 60 grain bullet, such as the Aguilla 60 gr SSS, the bullet will not be stabilized, and may tumble in flight.
The answer varies, depending on WHICH .45 caliber bullet, and which weapon fires it. In the case of the 1911A1 pistol, in .45 ACP, firing a standard 230 gr. round nosed bullet, when elevated to 33 degrees, the bullet will travel 2096 ft. Not accurately, but that is it's maximum RANGE.
In the case of the 1911A1 pistol, in .45 ACP, firing a standard 230 gr. round nosed bullet, when elevated to 33 degrees, the bullet will travel 2096 ft. Not accurately, but that is it's maximum RANGE. When fired from a carbine or submachinegun, the range may be greater.
Technically speaking- none. A bullet is the solid metal part of a cartridge that is fired out of the barrel. How much gunpowder is in a 9mm Parabellum CARTRIDGE will depend on the powder used and the bullet weight. I reload with 4.6 grains of Bullseye powder with a 115 gr bullet, but there are dozens of other loads.
It can be either.
all my reload date says, use the 55gr. data for the 52 gr match bullet, this comes from the hornady reload book.
Approx. 0,5 lagal cup US.
Anything on the face of the earth. It is a great caliber, handling bullet weights ranging from 55gr. to 250grs. The smaller weighted bullets are great for varmint hunting for coyotes and ground hogs. You can go up to a 180 gr. bullet for big game but not dangerous big game. For those such as moose and bear , animals over 500 pounds you should use 180 gr. to 250 gr. bullet and because of the bullet weight you will not be able to shoot as far. For this reason you may want to consider a .338 win mag or 416 rem mag if you hunt a lot of extra large game.
600 NE- 900 gr bullet, 145 gr Winchester 760 powder (slightly compressed) 700 NE- MAX 250 gr VVN powder + 2 gr Bullseye as a base charge.
Yes, what powder are you using?
It depends upon the firing angle, among other factors. For a 95 gr .380 ACP moving 955 fps, it will travel about 1423 yards (80% of a mile) when fired at an optimal elevation angle of about 30 degrees.
188.38
Try Dave Jennings at www.montanabulletworks.com