Gravity is caused by the denting of space/time more simply its the force that pulls you down. Larger bodys have a greater gravitational pull. when you have a wing, the air that travels under the wing moves slower then the air traveling over it. when air speed up its pressure decreases. so the higher pressure of the slower air on the bottom pushes up on the lower pressure of the faster moving air. To see an example of this hold to pieces of paper together at the top corners and blow inbetweent he two papers, you would think the will go apart but they will compress bc the air inside is moving faster and being pressed by the higher pressure outside.
Nothing. Edit: The object will fail to become airborne, or if airborne, it will begin a descent to the lowest level available.
In that case, the net force on the object is downward, and it drops.
WE WILL ALL DIE
...the same or greater than...
(Airplane is descending)
my dear gravity is forever greater than friction and strong atomic force is greater than gravity
poles
The force of gravity must be greater than the normal force.
If the lift is greater than gravity then the airplane gains altitude.
The four basic forces acting on an aircraft are Lift, Weight (Gravity), Thrust, and Drag. In order for an aircraft to ascend, Lift must be greater than Weight, and Thrust must be greater than Drag.
...the same or greater than...
thrust that is greater than earth's gravity
(Airplane is descending)
as high as the lift from the wings is greater than the gravity pulling it down
It takes off
A force greater than the weight of the load,applied to it in the upward direction, does.
Thrust . i mean a force required to overcome the gravity of earth and which is greater than its weight.
no it inst because a newton and force is part of gravity
my dear gravity is forever greater than friction and strong atomic force is greater than gravity
Thrust that is greater than Earth's gravity, and it must be sustained over a sufficiently long time. Alternately, the initial speed must be greater than the escape velocity.