I know it's just a comic strip, but would someone calculate how far up Uzuki had to be when she jumped from the plane for the plane to catch up and overtake her free-falling? Also to determine how much potential energy slammed into that BB-hime.
I know it's just a comic strip, but would someone calculate how far up Uzuki had to be when she jumped from the plane for the plane to catch up and overtake her free-falling? Also to determine how much potential energy slammed into that BB-hime.
I know it's just a comic strip, but would someone calculate how far up Uzuki had to be when she jumped from the plane for the plane to catch up and overtake her free-falling? Also to determine how much potential energy slammed into that BB-hime.
This distance would be negative. If we neglect aerodynamic forces, Uzuki and the plane would fall together, with equal acceleration g (which does not depend on object mass ). Now, the aerodynamic force, which slows free-falling down, would be greater for the plane, as it has a larger area in every possible cross-section. Thus, Uzuki falls faster, and the plane would never catch up her free-falling.
Also,
NNescio said:
U = mgh
it took me quite a bit of time to see what you did there.
Updated
Boss! A Rabbit from the Sky!Yeah...
Sorry.You really shouldn't be looking away, should you...?Ooh, watch out there.uuuuuuuUUU-CHAAANPOTENTIAL ENERGY KIIICK!T-The shit!?