| 1 |
[quote]@Stuff: ... so the butter side has less drag ...[/quote]
|
1 |
[quote]@Stuff: ... so the butter side has less drag ...[/quote]
|
| 2 |
\n
|
2 |
\n
|
| 3 |
If that is actually the case, a plane with toast-wings and butter on their upper side would experience more lift than an identical plane that is only lacking the butter, right?
|
3 |
If that is actually the case, a plane with toast-wings and butter on their upper side would experience more lift than an identical plane that is only lacking the butter, right?
|
| 4 |
\n
|
4 |
\n
|
| 5 |
[quote]@SmokeDragon: ... microscopic vortex sometimes called whirlpool on the surface formed by the rushing air fight ... the result is an explosion of micro butter missiles that are hurtled at speeds that obliterate half of them due to impacting any small air resistance shock-waves ... [/quote]
|
5 |
[quote]@SmokeDragon: ... microscopic vortex sometimes called whirlpool on the surface formed by the rushing air fight ... the result is an explosion of micro butter missiles that are hurtled at speeds that obliterate half of them due to impacting any small air resistance shock-waves ... [/quote]
|
| 6 |
\n
|
6 |
\n
|
| 7 |
Those
vortexes
would
increase
drag
on
the
butter
side.
Those
butter-oil-missile
would
also
transfer
an
impulse
to
the
toast
in
direction
uf
the
unbuttered
side,
when
leaving
it.
Both
effects
would
result
in
quite
the
opposite
as
to
what
@Sprung
hypothesised
w.
r.
t.
a
toast-planes
lift.
|
7 |
Those
vortexes
would
increase
drag
on
the
butter
side.
Those
butter-oil-missile
would
also
transfer
an
impulse
to
the
toast
in
direction
uf
the
unbuttered
side,
when
leaving
it.
Both
effects
would
result
in
quite
the
opposite
as
to
what
@Stuff
hypothesised
w.
r.
t.
a
toast-planes
lift.
|
| 8 |
\n
|
8 |
\n
|
| 9 |
We can easily find out by building several identical toast-planes and measure their flight behaviour in a wind channel. (Use feather suspension to measure any lift generated.)
|
9 |
We can easily find out by building several identical toast-planes and measure their flight behaviour in a wind channel. (Use feather suspension to measure any lift generated.)
|
| 10 |
\n
|
10 |
\n
|
| 11 |
[quote]@Steel_Blue: ... that cube will inherit the 20 m/s as it exits the paired portal ...[/quote]
|
11 |
[quote]@Steel_Blue: ... that cube will inherit the 20 m/s as it exits the paired portal ...[/quote]
|
| 12 |
\n
|
12 |
\n
|
| 13 |
That would be especially true for cubes of toast, buttered or unbuttered? Would that yield to an experimental setup?
|
13 |
That would be especially true for cubes of toast, buttered or unbuttered? Would that yield to an experimental setup?
|
buttered side down and accumulation perspective