He was operating a significant number of his weapons on bump stocks. Bump stocks allow firing at a much higher rate than the weapons were designed for. Operating at a higher rate causes the weapons to overheat. Overheating causes misfires and jams (and inaccuracy and can permanently damage weapons, but I doubt he was particularly concerned about those things). He did have them all set up in a row and many on mounts. He broke out the overlooking windows of his hotel room before he started shooting. It seems he was shooting with one until it jammed and then moving on to the next rather than trying to clear misfires.
If that is the case, that he was using a gun until it jammed, it makes more sense to me. At the same time, how often does an ordinary gun jam? I’ve used an HK416 and an MG3 during a year of army service (conscription training) and to my memory you could fire many hundred rounds (thousands in the case of the MG3) without a single jam, and a misfire takes about a second (max) to clear.
Also, I’ve seen people talking about the number of guns someone has also in other settings, as a kind of metric that people who are into guns seem to care about, I guess I’m more wondering about the phenomenon in general than just this specific case.
I have no idea on a metric of how frequently an “ordinary” gun jams, much less these modified ones, but I can apply some logic from my knowledge/experiences. The weapons you mention having experience with are designed with appropriate tolerances to not bind up under heavy use, so are a bit different from the ‘consumer-grade’ type we’re talking about in this specific event.
The type of semiautomatic rifles we’re talking about here use recoil to cycle the action. A bump stock allows the whole weapon to oscillate - and can have an effect similar to not securely shouldering the weapon. This prevents the needed energy from being transferred into the action for complete cycling, and that would make the weapon prone to jamming.
I don’t know if I have much of value to add to or reply to your second paragraph, but yeah that fixation is weird.
I have no idea about the differences in tolerances and reliability between “army grade” and “consumer grade” weapons, but I know that the MG3 is renowned for being extremely reliable in military context.
I’ve never even thought about trying a bump stock, but the idea that some of the energy that “should” be going into properly chambering the round instead goes to simulating automating fire, and that it therefore increases the risk of a misfeed or jam makes a lot of sense.
He was operating a significant number of his weapons on bump stocks. Bump stocks allow firing at a much higher rate than the weapons were designed for. Operating at a higher rate causes the weapons to overheat. Overheating causes misfires and jams (and inaccuracy and can permanently damage weapons, but I doubt he was particularly concerned about those things). He did have them all set up in a row and many on mounts. He broke out the overlooking windows of his hotel room before he started shooting. It seems he was shooting with one until it jammed and then moving on to the next rather than trying to clear misfires.
If that is the case, that he was using a gun until it jammed, it makes more sense to me. At the same time, how often does an ordinary gun jam? I’ve used an HK416 and an MG3 during a year of army service (conscription training) and to my memory you could fire many hundred rounds (thousands in the case of the MG3) without a single jam, and a misfire takes about a second (max) to clear.
Also, I’ve seen people talking about the number of guns someone has also in other settings, as a kind of metric that people who are into guns seem to care about, I guess I’m more wondering about the phenomenon in general than just this specific case.
I have no idea on a metric of how frequently an “ordinary” gun jams, much less these modified ones, but I can apply some logic from my knowledge/experiences. The weapons you mention having experience with are designed with appropriate tolerances to not bind up under heavy use, so are a bit different from the ‘consumer-grade’ type we’re talking about in this specific event.
The type of semiautomatic rifles we’re talking about here use recoil to cycle the action. A bump stock allows the whole weapon to oscillate - and can have an effect similar to not securely shouldering the weapon. This prevents the needed energy from being transferred into the action for complete cycling, and that would make the weapon prone to jamming.
I don’t know if I have much of value to add to or reply to your second paragraph, but yeah that fixation is weird.
I have no idea about the differences in tolerances and reliability between “army grade” and “consumer grade” weapons, but I know that the MG3 is renowned for being extremely reliable in military context.
I’ve never even thought about trying a bump stock, but the idea that some of the energy that “should” be going into properly chambering the round instead goes to simulating automating fire, and that it therefore increases the risk of a misfeed or jam makes a lot of sense.