it all works on the principle of newton's third law of motion, A force has an action force and a reaction force opposite to action force but the same magnitude.
What happens is that, Jet engines have huge engines on their wings, which has a huge fan in-front of it which sucks air at a enormous rate. Inside the engine fuel is burnt and mixed with air and released from the back, which is a narrow nozzle producing thrust.
Airplanes fly due to the principles of fluid dynamics, specifically Bernoulli's principle and Newton's third law of motion. As air flows over and under the wings, the shape of the wings (airfoil) creates a difference in air pressure, generating lift. This lift counteracts the weight of the airplane, allowing even heavy planes to ascend and maintain flight. The engines provide thrust, propelling the airplane forward and enhancing the airflow over the wings.
When a heavy desk is not moving, the main forces acting on it are the gravitational force pulling it downward and the normal force pushing back up from the ground to support its weight. These two forces are in equilibrium, which is why the desk remains stationary.
The primary acting forces on a crane are tension in the lifting ropes or cables, compression in the crane structure, and ground reaction forces at the base. These forces work together to safely lift and move heavy loads.
Two examples of pushing forces are a car's engine pushing the car forward, and a person pushing a heavy object across the floor.
It is highly unlikely for a tornado to pick up an airplane due to its heavy weight and design. Airplanes are built to withstand strong winds and turbulence, and they are not easily lifted off the ground by tornadoes.
low gear ratios
Airplanes need a lot of speed to take off because they are not designed for vertical takeoff and are to heavy to do so.
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Airplanes fly due to the principles of fluid dynamics, specifically Bernoulli's principle and Newton's third law of motion. As air flows over and under the wings, the shape of the wings (airfoil) creates a difference in air pressure, generating lift. This lift counteracts the weight of the airplane, allowing even heavy planes to ascend and maintain flight. The engines provide thrust, propelling the airplane forward and enhancing the airflow over the wings.
a plane that is well armored and fast and that can hold heavy weights
Because a plane is heavy enough to crush you, gravity dose'nt just forget about planes.
Just any heavy duty brake fluid will do, even regular brake fluid is fine, but I prefer the heavy duty grade. Dot 3 or Dot 4 brake fluid.
Iron isn't used that often in airplanes because it isextremely heavy, and brittle. Not to mention expensive.
friction forces
they also were the target of heavy destruction by the Allied forces
Yes. Tornadoes have hit airports. When this happens it often results in heavy damage to airplanes.
When a heavy desk is not moving, the main forces acting on it are the gravitational force pulling it downward and the normal force pushing back up from the ground to support its weight. These two forces are in equilibrium, which is why the desk remains stationary.