No. We call the upward component of force "lift".
"Thrust" is the component of force forward ... the direction the plane's nose points.
The upward force acting on the wing of an airplane in flight is called lift. It is generated due to the difference in air pressure between the top and bottom surfaces of the wing caused by the shape of the wing and its angle of attack. This lift force allows the airplane to overcome gravity and stay aloft.
The upward force acting on the wing of an airplane in flight is called lift. It is generated by the flow of air over the wing due to differences in air pressure created by the wing's shape and angle of attack.
The upward force acting on the wing of an airplane is called lift. It is generated by the flow of air over the wing, due to the difference in air pressure between the upper and lower surfaces of the wing. This lift force is what enables the airplane to overcome gravity and stay in the air.
The term that describes the upward force on the wings of an airplane that causes unequal pressure is lift. This lift is generated by the flow of air over the wings of the airplane, creating a pressure difference between the upper and lower surfaces of the wing, resulting in the upward force.
The lift force is generated by the shape of the wing (airfoil) and the angle at which it meets the oncoming air. As the airplane moves through the air, the wing's design creates a pressure difference between the top and bottom surfaces, resulting in a net upward force known as lift.
Thrust is the forward motion of the airplane provided by the engines. Lift is the upward force on an airplanes wing.
The upward force acting on the wing of an airplane in flight is called lift. It is generated due to the difference in air pressure between the top and bottom surfaces of the wing caused by the shape of the wing and its angle of attack. This lift force allows the airplane to overcome gravity and stay aloft.
The upward force acting on the wing of an airplane in flight is called lift. It is generated by the flow of air over the wing due to differences in air pressure created by the wing's shape and angle of attack.
The upward force acting on the wing of an airplane is called lift. It is generated by the flow of air over the wing, due to the difference in air pressure between the upper and lower surfaces of the wing. This lift force is what enables the airplane to overcome gravity and stay in the air.
Dont know maybe density force.
An airplane stays in the sky due to lift and thrust. Lift is generated by the air flowing over the wings, creating an upward force that counters the force of gravity. Thrust is the forward force produced by the airplane's engines that propels it through the air.
The term that describes the upward force on the wings of an airplane that causes unequal pressure is lift. This lift is generated by the flow of air over the wings of the airplane, creating a pressure difference between the upper and lower surfaces of the wing, resulting in the upward force.
The lift force is generated by the shape of the wing (airfoil) and the angle at which it meets the oncoming air. As the airplane moves through the air, the wing's design creates a pressure difference between the top and bottom surfaces, resulting in a net upward force known as lift.
The upward force due to a pressure difference is called lift. It is generated when the air pressure below the wing is higher than the pressure above the wing, creating a pressure difference that causes the wing to be pushed upward.
Lift is the force that acts upwards, perpendicular to the chord of the wing. Thrust is the force acting perpendicular to the propeller disc.
Lift is the force that is created by the air-flow over the wings and body of an airplane. It is one of the 3 aerodynamic forces acting on an airplane in flight: Lift, Drag & Thrust.AddendumI was taught that there were four forces acting on an aircraft. Lift, drag, thrust and weight. Lift and weight are up and down forces, while thrust and drag are fore and aft forces. Lift forces must be equal to or greater than weight forces for the aircraft to fly. As the first answer points out, lift is generated through the application of Bernoulli's principle.i dont noBy making a LOT of assumptions I can simplify it to: the air passing over the top of the airfoil shape of the wing pushes a lot less than the air passing under the wing, which results in a net upward (one of those assumptions) force. By controlling many things like; the speed of the air passing the wing (or from the other perspective, our speed through the air), angle of attack of the wing, turbulence and many others we can control how much net upward force we want resulting in lifting the plane off the ground and direction.
The force that pushes an airplane wing up is called lift. Lift is generated by the difference in air pressure above and below the wing, created by the wing's shape and angle of attack. This force allows the airplane to overcome gravity and stay airborne.