The GForce Rapture is a game changer for aftermarket part support with fully customizable trigger, slide, barrel, sights and optics. Features Glock compatibility; front and rear slide serrations; fiber optic sights; optics ready slide able to mount any red dot using a RMR and RMSc footprint; aggressive stippling on the grip with a heavy thumb rest and flat faced trigger. Includes two grip backstraps and one magazines.
Brand Gforce Arms
Category Pistols
Model Rapture
Caliber 9mm Luger
Barrel Length Range 3" to 3.99"
Capacity 12+1
Action Semi-Auto
Frame Finish Pink Cerakote
Oal 6.60"
Frame Material Polymer
Sight Style Fiber Optic
Slide Finish Nickel
Slide Material Steel
Sights Red FO Front / Green FO Rear
Slide Description Optic Ready / Serrated
Mount Type Shield RMSc Footprint
Barrel Finish Black
Barrel Material Steel
Frame Size Sub-Compact
Height 5.10"
Width 1.10"
Barrel Description Steel
Barrel Length 3.25"
Max Capacity 12
Trigger Flat Face
Weight 1.40 lbs
Frame Description Polymer Frame
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
