Well… duh? A fairer comparison would be the cow vs jeep. A sea creature vs something designed for land isn’t that great of a comparison because water is thick enough that you’re going to need some kind of aerodynamic (fluodynamic?) adaptation to survive. Air is thin enough that evolution can sacrifice some aerodynamics for other traits.
At the speed cars move at, air behaves much like water. They’re both fluids. The faster you move the more resistance it has, but also the more dense the fluid is the more resistance it has. Moving quickly through the air is similar to moving slowly through water.
Well… duh? A fairer comparison would be the cow vs jeep. A sea creature vs something designed for land isn’t that great of a comparison because water is thick enough that you’re going to need some kind of aerodynamic (fluodynamic?) adaptation to survive. Air is thin enough that evolution can sacrifice some aerodynamics for other traits.
At the speed cars move at, air behaves much like water. They’re both fluids. The faster you move the more resistance it has, but also the more dense the fluid is the more resistance it has. Moving quickly through the air is similar to moving slowly through water.
I think it would be hydrodynamic and screw evolution I want my beef to be as aerodynamic as an F1.
So is a cow more aerodynamic than a Jeep? Edit: Nevermind, it got kind of answered in another thread.