Style that causes the aircraft to fly
Instead, on the surface of this earth every object weighing heavier than air (heavier than air) will be towards the earth because this phenomenon is subject to the law of gravity () To keep the object in place and not fall to the earth, it takes force (Force) as much as Gravity Style (G-Force) arising from the object, which is called daily weight. This applies also to an airplane as an object heavier than air.

The forces acting on an airplane consist of: 

(1) Thrust Force (Thrust) which pushes the plane forward, 

(2) The Inhibitory Force (Drag) which is toward the rear of the plane, in contrast to Push Style, 

(3) Lifting Force (Lift) that lifts the aircraft upward, and 

(4) Gravity force that works on the plane causing a weight that always goes down,

Then so that the plane can fly (air) against the Earth's Gravity Force, then there must be a force greater than the Gravity Force (its weight) that works on the plane. Style To fight Gravity (Weight) Style on an aircraft is Lift Force (Lift) produced by the wing as a result of Thrust Force from the engine (Engine) of the aircraft, either from Propeller or Jet (Jet Propulsion), the amount of which must be far greater than the Drag Force.

Mechanism of Emergence of Lifting Style on the Wing

Thrust force originating from the aircraft engine and much larger than the drag force will push the plane forward.

forward at a certain speed. This will lead to an aerodynamic force on the wing whose shape is designed in such a way (Aerofoil) that it can cause lift (lift) style on the wing