It is what allows an airplane to fly at all.
Bernoulli's principle states that for a fluid moving around an object, less pressure (force) is exerted on the surface where the fluid is moving more rapidly than where it is moving more slowly. The shape of an airfoil (wing) is such that air must move more quickly over the top of the wing than across the bottom. This generates lift because the air under the wing pushes it up into the (lower pressure) air above it. For a suitable shape, the angle of attack can be zero, or even less than zero, and still generate lift, because it is not only the angle of the wing generating the lift.
Pitot tube on a plane to measure airspeed.
That's "principle", not "principal". The idea is that the airplane's wings are shaped in such a way that the air moves faster on the top than on the bottom. As a result - and applying Bernoulli's principle - there is less pressure on the top of the wings.
the correct answer is speed!
Yes. A+
velocity and pressure have inverse relation. when velocity increases then pressure at that point decrease and vice versa.
Bernoullis principle
Pitot tube on a plane to measure airspeed.
That's "principle", not "principal". The idea is that the airplane's wings are shaped in such a way that the air moves faster on the top than on the bottom. As a result - and applying Bernoulli's principle - there is less pressure on the top of the wings.
Airplane,ventrimeter,andpump
the correct answer is speed!
Bernoulli's Principle
Yes. A+
§ Like a airplane wing, at the top it is curved, and that creates longer distance from front to back then the straight bottom. This causes the air on top to travel farther and thus faster to reach the back, then the air underneath, is creating a difference in pressure between two surfaces
The Brenoulli's Principle.
Bernoulli's Principle
velocity and pressure have inverse relation. when velocity increases then pressure at that point decrease and vice versa.
An example of Bernoulli's principle is an Airplane. Your Welcome[: