Glock 17XOR Gen 5 Semi-Automatic Pistol 9mm Luger 4.95" Barrel (3)-17Rd Magazines Flat Dark Earth Cerakote Finish
Designed for professionals, the GLOCK 17 is trusted by law enforcement officers and military personnel around the globe because of its unsurpassed reliability, optimal magazine capacity of 17 rounds in the standard magazine and its low weight. With the signature "Safe Action" trigger system, the GLOCK 17 9 mm Luger pistol is safe, easy, and quick - precisely what you need in critical situations.
Features : -Optic Ready-Will only Accept Trijicon and Holosun RMR Footprint Optics
-4.99" Threaded Barrel
-Includes (3)-17 Round Magazines
Manufacturer: GLOCK
Model: 17X
Model: Gen 5
Action: Semi-automatic
Type: Striker Fired
Size: Full Size
Caliber: 9MM
Barrel Length: 4.95"
Color: Flat Dark Earth
Grips: Interchangeable
Capacity: 17 Rounds
Accessories: 3 Magazines
Description: Optics Ready
Sights: Fixed Sights
Subcategory: Pistols - Polymer Frame
Material: Polymer
Finish: Cerakote
Caliber Dictionary
The Below Information Has Been Provided From Our Gun Caliber Dictionary And Is Meant For Informational Purposes Only. It Is Not Intended to Describe The Unique Specifications For This Ammunition.
The 9mm Luger (9X19mm, Parabellum, P08) was developed in Germany in 1902. Widely used in both world wars, it is the most popular pistol cartridge in the world, now widely used by innumerable law enforcement agencies and militaries (including our own) in both pistols and submachineguns. The controversy over its "stopping power" will never go away, but its attribute is that it is much easier to shoot accurately than larger cartridges with greater power...but more recoil. Advancements in bullet design for law enforcement and personal defense have narrowed the gap considerably. The 9mm Luger is a world standard, chambered by virtually all makers of semiautomatic pistols, with a myriad of factory loads. The most standard is probably a 115-grain load at 1160 fps, with common bullet weights ranging from 95 to 147 grains, and +P loads at higher velocity. — Craig Boddington
