the answer to this question is pull it is the opposite to push.push is the force that makes it go forward and pull is the force to bring you back...go liverpuddlians:):):):):):):):):):):):):):):):):):):):):):):):):):):):):):)
Gravity
the force of the airplane is directly related to the force of 10000 newtons therfore using the formula of p=1/2q3(6k) we can easily figure out that the force of the airplane is 1000/10 which is 100.
The force of gravity pulls a snowboarder down a mountain.
The force with which gravity pulls on a quantity of matter is referred to as gravity.
The force that pulls an object toward earth also pulls the earth toward the object.The two forces are equal. Together, we refer to them as the force of gravity.
Gravity
the force of the airplane is directly related to the force of 10000 newtons therfore using the formula of p=1/2q3(6k) we can easily figure out that the force of the airplane is 1000/10 which is 100.
the dark side of the force
Gravitational potential energy pulls objects back down
gravity
gravity's force pulls it back
This is to allow the airplane to rotate when it is taking off. (Rotating is when the pilot pulls back, raises the nose of the aircraft, and the aircraft rises into the air). If the aircraft did not have this raised tail-end, a "tail-strike" would happen, which damages the aircraft.
Gravitational force (or gravity) is a force that pulls things together.
The force of gravity pulls a snowboarder down a mountain.
The force of Gravity. Gravity is the force that pulls everything down to the ground. Hope this helps!
Forces that act on an airplane? There are several. First, the thrust of the engines which push the airplane forward. If it's a jet-powered airplane, then the force of the air and burned fuel being pushed out of the BACK of the engine drive the plane FORWARD. If it's a propeller-powered plane, then the propellers spin around in the air and generate lift which pulls the plane forward. There's the force of gravity, which pulls the airplane to the ground. There is the force of "lift". As the plane moves through the air, the air standing still flows backwards over the wing and under the wing. The air going over the wing is forced to move faster than the air moving under, which generates lift. The faster the airplane, or the more curved the wing is, the more lift is generated. The lift generated by the air flowing across the wing lifts the airplane against gravity. Finally, drag tends to slow the airplane down. When the airplane slows down, it generates less lift, and it decends. If it slows down too much, the airplane will stop flying and will crash.
gravity;)