Quote:
Originally Posted by Easy
LOL. You are an authority in terminal balistics?
The theory of Martel [Kneubuehl 1999]:
Ed = Cv*V
The size of the inflicted area is directly proportional to the dissipated energy Ed. Based on an analysis of a number of experiments a significant correlation between the amount of devitalised tissue and dissipated kinetic energy
(Ed) has been proved [Berlin et al. 1976 and 1979, Janzon and Seeman 1985, Janzon 1988, Tikka 1989, Janzon 2004]. Ed has also been called “down-track” energy [Coupland 2000].
Balistic Science is not an opinion it is fact. The kind of facts tha Scarecrow likes.
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I never proclaimed to be. Please source stuff when you post it though, it would be nice to know where you are getting things from. I can write long things like that, but it means nothing if you don't cite what the hell your taking it from. Thanks. Also, no need to be a douche bag about things. Realize you just posted like 6 longs posts with this random, unsourced information. Looks funny.
Quote:
Originally Posted by Easy
Obviously, you need to brush up on your physics.
At equal velocities the MASS of the bb is what counts and nothing else.
Heavier DIGICOMs (0.42g) and the G&G (0.28g) penetrat more than the BBBMAX (0.27g).
High school PHYSICS and not some BBBMAX super powers.
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Okay... So they are all travelling at equal velocities? Then yes, congrats. High school physics was proven! 3 objects moving at equal velocities but different masses will have different impacts! The heaviest one will do the most damage! Thanks, I know Ek=0.5m*u^2. What does that prove, them all moving at equal velocities, when they are different mass. It proves the equation for kinetic energy. Nothing else. What would be useful is doing a test with all 3 BBs at the exact same muzzle energy. Not velocity. A 0.42g BB moving at 400fps is not the same as a 0.27g or 0.28g BB moving at 400fps.. It has significantly larger energy.