Aquaticulture t1_j4isv6m wrote
The KRISS vector changes the angle of recoil to avoid muzzle climb and perceived recoil according to the Wikipedia.
You would still be propelled in the opposite direction.
Unless you were expelling mass with the same force in the exact opposite direction, firing a gun is going to impart force upon you and cause you to move.
Mass is not irrelevant in a vacuum btw (or in micro gravity which is what I think you meant to say).
TyphusIsDaddy OP t1_j4itone wrote
Micro gravity is probably what I meant, Im definitely not a scientist. Whats the difference?
Also I thought mass would still be relevant, just couldnt work around how. Is it because the energies from the bullet are being transfered into the recoil dampners/springs, but theres nothing counteracting the weight of the bullet?
OnlyAstronomyFans t1_j4j24el wrote
Not a physicist but the way I understand it you’re always subjected to some amount of gravity in space, but as you’re orbiting the planet/sun/galaxy/center of mass you’re constantly in freefall.
flowersonthewall72 t1_j4ixjis wrote
Micro gravity and a vacuum are two different environments. We can create a vacuum on the surface of earth (full of gravity) or have the space station have micro gravity with no vacuum inside the station itself. The depths of space have both micro gravity and a vacuum.
Mass is certainly relevant in micro gravity. Kinetic energy (like a moving bullet) is bound to mass. More mass, more kinetic energy. So if you were to shoot a heavier bullet at the same speed as your vector, the bullet would have a higher energy. Then equal and opposite forces blah blah blah...
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