The drag force on a plane is caused by air resistance as the plane moves through the air. This resistance is due to the friction between the air molecules and the surface of the plane, which opposes the plane's forward motion.
A force is needed on a plane to counteract the forces of gravity and drag, allowing the plane to lift off the ground and maintain altitude. The force generated by the engines helps propel the airplane forward and create lift, enabling it to overcome gravity and stay in the air.
The main forces acting on a plane in flight are lift, weight, thrust, and drag. Lift is produced by the wings, opposing the weight of the plane. Thrust is provided by the engines, moving the plane forward and countering drag, which is the aerodynamic force slowing the plane down.
Car, elevator, train, plane
Airplane flaps are used during takeoff and landing to increase lift and drag, which helps the plane to reduce speed for landing and take off. At cruising speeds, the airplane is already flying efficiently and has no need for the extra lift and drag provided by the flaps.
the flaps on a plane increase drag and they create lift so the piolt can fly the plane at a lower speed.
Why is the elevator a good example of an inclined plane?
No it's not.
An elevator on a airplane are tabs on the tail that control its up and down motion in the air
drag is minimized by aerofoil shape. drag is a force acts on aircraft to minimize speed
The drag force on a plane is caused by air resistance as the plane moves through the air. This resistance is due to the friction between the air molecules and the surface of the plane, which opposes the plane's forward motion.
Drag
no, inclined planes are ramps
The plane follows the arc of the elevator and moves up when the elevators are up.
yes. the flaps increase drag which slows the plane down.
They use the elevator and the elevator chain and cogs . The wright brothers use the elevator control lever to keep its balance in the air.
A force is needed on a plane to counteract the forces of gravity and drag, allowing the plane to lift off the ground and maintain altitude. The force generated by the engines helps propel the airplane forward and create lift, enabling it to overcome gravity and stay in the air.