The fact that planes are kept in the air by the shape of their wings, which forces air to go over at a pace when it can’t push down on the wing as hard as it can push up from underneath. It’s like discovering an exploitable glitch in a videogame and every time I fly I worry that the universe will get patched while I’m at 10,000 feet.
I remember reading a couple years ago that’s not actually how plane wings work. The actual way is much more complicated and hard to explain and hard to teach, so they just teach it this way because its an intuitive mental model that is “close enough” and “seems right”, and it really doesn’t matter unless you’re a plane wing designer.
The basic way an airplane works actually is simple and intuitive: it meets the air at an angle and deflects it downward. The equal and opposite reaction to accelerating that mass of air is an upward force on the wing.
There is, of course a whole lot of finesse on top of that with differences in wing design having huge impacts on the performance and handling of aircraft due to various aerodynamic phenomena which are anything but simple or intuitive. A thin, flat wing will fly though, and balsa wood toy airplanes usually use exactly that.
The fact that planes are kept in the air by the shape of their wings, which forces air to go over at a pace when it can’t push down on the wing as hard as it can push up from underneath. It’s like discovering an exploitable glitch in a videogame and every time I fly I worry that the universe will get patched while I’m at 10,000 feet.
I remember reading a couple years ago that’s not actually how plane wings work. The actual way is much more complicated and hard to explain and hard to teach, so they just teach it this way because its an intuitive mental model that is “close enough” and “seems right”, and it really doesn’t matter unless you’re a plane wing designer.
The basic way an airplane works actually is simple and intuitive: it meets the air at an angle and deflects it downward. The equal and opposite reaction to accelerating that mass of air is an upward force on the wing.
There is, of course a whole lot of finesse on top of that with differences in wing design having huge impacts on the performance and handling of aircraft due to various aerodynamic phenomena which are anything but simple or intuitive. A thin, flat wing will fly though, and balsa wood toy airplanes usually use exactly that.
https://en.wikipedia.org/wiki/Lift_(force)#Simplified_physical_explanations_of_lift_on_an_airfoil
Tbf, you can make anything fly if you give it enough thrust. Wings just make it easier.
In a sense, everything can fly. Just sometimes not for very long.
Except bees. Engineers reckon they shouldn’t be able to fly, but bees told them to get fucked and do it anyway
https://i.imgur.com/lDSBuud.gif