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I have recovered balls with cloth pattern embossed, that's good enough for me.
Yes! R = (12/T) x V. Where T = twist & V = velocity of bullet in feet per second will give you R (rotational speed of bullet) in Rotations per Second. Multiply by 60 to get RPM's. So if you have a ball with an 1800 fps muzzle velocity & a barrel twist of 1 in 48, the ball will be spinning at 27,000 RPMs when it leaves the muzzle. Unmentionables with their higher velocity & much faster twists can spin bullets in excess of 250,000 RPMs. That will make you dizzy!
Yank, this questions normally get 15 pages of answers and all will be different. Cast some balls of different hardness and let experimentation be your guide. Come up up with your OWN empirical evidence and go from there!!! I have shot thousands of round balls, mostly round balls, with extreme success, (target and hunting)made out of WW, range lead and remelted hard bullets. They come out a bit larger and depends on the gun are harder to load but in this game experimentation is most of the fun. Good luck.Ive never gotten a good answer about this but why must we use pure soft lead for round ball? It's said over and over that the patch engages the rifling not the ball, so what does it matter if the lead is pure lead or wheel weights or whatever, other than maybe weight consistency or expansion on game. A slightly lighter ball would give a bit higher velocity therefore flatter trajectory, albeit not that much. Seems like a rookie question but there are many other myths and wives tales about BP shooting. I'm just wondering if this is one.
Ive never gotten a good answer about this but why must we use pure soft lead for round ball? It's said over and over that the patch engages the rifling not the ball, so what does it matter if the lead is pure lead or wheel weights or whatever, other than maybe weight consistency or expansion on game. A slightly lighter ball would give a bit higher velocity therefore flatter trajectory, albeit not that much. Seems like a rookie question but there are many other myths and wives tales about BP shooting. I'm just wondering if this is one.
An alloy lead bullet isn't constant. ? the amount of the added substance can vary greatly. This means one would have to shoot many times to find out what works for a particular rifle with a particular lead alloy. Being alloys are varied it would be a nightmare to have to change set ups each time you use an alloy lead bullet being you never know how hard or soft your bullet happens to be? As far as riflings gripping the ball I really think it grips well enough as the C.U.P.s are extremely high and spin will be induced on the ball/bullet regardless? I also think that when shooting Minie bullets and the like pure lead would allow you to shoot lighter loads as it takes less C.U.P. to expand the skirt of mine like bullets. All in all pure lead balls takes a lot of the guess work out of the equation. Am I wrong with my therory? Probably!Ive never gotten a good answer about this but why must we use pure soft lead for round ball? It's said over and over that the patch engages the rifling not the ball, so what does it matter if the lead is pure lead or wheel weights or whatever, other than maybe weight consistency or expansion on game. A slightly lighter ball would give a bit higher velocity therefore flatter trajectory, albeit not that much. Seems like a rookie question but there are many other myths and wives tales about BP shooting. I'm just wondering if this is one.
I can't even. Quod erat demonstrandum.I have recovered balls with cloth pattern embossed, that's good enough for me.
If you are just trying to "justify" your use of hard lead then no justification is required.This keeps being reported, but it seems to me to be something of a "likely story". Given how friction actually works between two surfaces, it's not obvious that macroscopic "imprinting" would actually contribute anything. Is there any real evidence for this (I mean experiments demonstrating it under controlled conditions with actual measurements)? Or is it just offered as "common sense"?
Yes, but this is a theoretical determination (result based on the physical theory we've developed). I take Dude to be asking how we could determine that answer empirically/observationally. The answer to this is that we could, but it would take a lot of equipment in a lab and, of course, some significant funding. The major ammunition and bullet manufacturers' labs have that equipment (as do universities), but no one would fund the study because it would matter to so few people (although possibly patch vendors might care a lot). It would be like funding the development of a medication for a disease that only a dozen people in the world get and that only makes their noses itch for 30 seconds out of each day. In my experience, NSF would not be interested in funding the necessary study. But it might make part of a decent MS thesis in ballistics if it could be worked into something a little broader -- or maybe just used to show how good the lab equipment is so that more grants could be awarded for developing that equipment.Yes! R = (12/T) x V. Where T = twist & V = velocity of bullet in feet per second will give you R (rotational speed of bullet) in Rotations per Second. ...
If it wasn't following the rifling at the prescribed rate then the bullet is stripping the rifling and will show evidence on the bullet. QED that.Yes, but this is a theoretical determination (result based on the physical theory we've developed). I take Dude to be asking how we could determine that answer empirically/observationally. The answer to this is that we could, but it would take a lot of equipment in a lab and, of course, some significant funding. The major ammunition and bullet manufacturers' labs have that equipment (as do universities), but no one would fund the study because it would matter to so few people (although possibly patch vendors might care a lot). It would be like funding the development of a medication for a disease that only a dozen people in the world get and that only makes their noses itch for 30 seconds out of each day. In my experience, NSF would not be interested in funding the necessary study. But it might make part of a decent MS thesis in ballistics if it could be worked into something a little broader -- or maybe just used to show how good the lab equipment is so that more grants could be awarded for developing that equipment.
I am sure this has been kicked around for at least a couple of hundred years. My 2 cents worth; shoot whatever you can find. I have shot pure, sof lead, and various admixtures up to and including steel ball bearings (patched). Everything shot equally well (groups), but because there is variation in weight, the groups changed elevation slightly (ball bearings grouped about 2" higher than soft lead at 100 yards for me). The moral of the story is; unless you are consistently able to shoot cloverleafs, it probably won't make any difference. Hunters would probably be better off with soft stuff because they want the ball to flatten on impact.Ive never gotten a good answer about this but why must we use pure soft lead for round ball? It's said over and over that the patch engages the rifling not the ball, so what does it matter if the lead is pure lead or wheel weights or whatever, other than maybe weight consistency or expansion on game. A slightly lighter ball would give a bit higher velocity therefore flatter trajectory, albeit not that much. Seems like a rookie question but there are many other myths and wives tales about BP shooting. I'm just wondering if this is one.
Here's an idea. Go get some hard lead balls and try to load them without having to use a hammer or cutting the patch. It can be done with a much smaller ball and thicker patch. The patch has to be thick and the ball smaller because the ball compresses the patch on the lands, but still has to fill the grooves. Lead will give allowing both things to happen.
I just answered a fellas question. Not really interested in arguing about your theoretically empirical observations. Whatever the heck that is. Have you always been this contrary?Yes, but this is a theoretical determination (result based on the physical theory we've developed). I take Dude to be asking how we could determine that answer empirically/observationally. The answer to this is that we could, but it would take a lot of equipment in a lab and, of course, some significant funding. The major ammunition and bullet manufacturers' labs have that equipment (as do universities), but no one would fund the study because it would matter to so few people (although possibly patch vendors might care a lot). It would be like funding the development of a medication for a disease that only a dozen people in the world get and that only makes their noses itch for 30 seconds out of each day. In my experience, NSF would not be interested in funding the necessary study. But it might make part of a decent MS thesis in ballistics if it could be worked into something a little broader -- or maybe just used to show how good the lab equipment is so that more grants could be awarded for developing that equipment.
Only when people are being assertive, silly, and then don't want to answer reasonable questions about what they've said. In this case, however, I'm not being contrary. Just pointing out that while what you said was perfectly correct, it wasn't an answer to the question that was actually asked, and then I tried to clarify what that question was and how it could be answered in the way the poster wanted. I don't think that's contrary.I just answered a fellas question. Not really interested in arguing about your theoretically empirical observations. Whatever the heck that is. Have you always been this contrary?
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