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Faraday/air interaction

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Date Editor Before After
10/8/2019 4:45:56 PMEErankAdminAnarchid before revert after revert
10/8/2019 4:45:36 PMEErankAdminAnarchid before revert after revert
10/8/2019 4:44:44 PMEErankAdminAnarchid before revert after revert
Before After
1 [quote] If lift depends on speed, at 0 speed, there should be 0 lift, so only normal gravity (same speed of jump units when they fall), which does not happen.[/quote] 1 [quote] If lift depends on speed, at 0 speed, there should be 0 lift, so only normal gravity (same speed of jump units when they fall), which does not happen.[/quote]
2 They fall at terminal velocity afaict. Except that because of high friction, this terminal velocity is very low. 2 They fall at terminal velocity afaict. Except that because of high friction, this terminal velocity is very low.
3 \n 3 \n
4 Again, it's also not entirely zero velocity. I encourage you to actually run some experiments and see what actually happens when you fly a raven near enough Faradays to stun it permanently. 4 Again, it's also not entirely zero velocity. I encourage you to actually run some experiments and see what actually happens when you fly a raven near enough Faradays to stun it permanently.
5 \n 5 \n
6 (Hint: it does not stay in air indefinitely)
7 \n
6 Jumps are not physical, in the sense that there are no forces that act upon them to produce the jump. They pretty much simply interpolated on a curve. This is why they are immune to gravity guns and placeholder during jump. 8 Jumps are not physical, in the sense that there are no forces that act upon them to produce the jump. They pretty much simply interpolated on a curve. This is why they are immune to gravity guns and placeholder during jump.
7 \n 9 \n
8 \n 10 \n