I'm not exactly a math person, and I don't even own a Glock, but someone is trying to tell me that they discharge easily when dropped.
Let me make this perfectly clear: I KNOW A GLOCK WILL NOT NORMALLY DISCHARGE WHEN DROPPED.
The other guy doesn't see it that way.
The only way it's possible with a healthy Glock is if it's dropped onto its rear. Let's take a loaded Glock 22 for the example. To me, it's reasonable to assume that inertia could deactivate the trigger safety if the pistol is dropped onto its rear. But how high would this pistol need to be dropped from for the trigger to move fully rearward, and why?
Glock lists the weight for a loaded 22 at 34.38oz. Let's assume a 4.5lb trigger.
Let me make this perfectly clear: I KNOW A GLOCK WILL NOT NORMALLY DISCHARGE WHEN DROPPED.
The other guy doesn't see it that way.
The only way it's possible with a healthy Glock is if it's dropped onto its rear. Let's take a loaded Glock 22 for the example. To me, it's reasonable to assume that inertia could deactivate the trigger safety if the pistol is dropped onto its rear. But how high would this pistol need to be dropped from for the trigger to move fully rearward, and why?
Glock lists the weight for a loaded 22 at 34.38oz. Let's assume a 4.5lb trigger.