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A lot of the inspiration for the construction of the aircraft is due to the bird's wings, which is why the wings of the aircraft are designed to be streamlined that can now take off easily, also because the bird's wings are streamlined. However, in addition to the special wing of the aircraft, the heart of the aircraft, that is, the core engine of the entire aircraft, also occupies a vital and incomparable role.
This kind of power plant that can provide strong power ensures that he can always get power in flight, not only the aircraft, but also the power plant of many machines is one of the souls of the machine, after all, they have no way to run without the power plant.
For the wing of the aircraft, its role is to make the fuselage of the aircraft weighing several hundred tons can be quickly lifted into the air and supported by the atmospheric pressure, and then move forward with the help of the power plant, so the strength of the wing is also very important. When the aircraft is at high altitude, due to the special wing of the wing, the atmosphere above the wing will be faster than the below, and the pressure will be less than that under the wing, so that it can be held up and not fall.
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There are two reasons for the ability to fly in the air without falling: the first is the unique aerodynamic shape of the aircraft, where the wings can generate lift in motion. Second, there are one or several engines with strong thrust that produce enough thrust to enable the aircraft to run at high speed, and with the help of wings and fuselage, it generates enough lift to balance the weight of the fuselage and can fly continuously.
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Due to the special shape of the wings of the aircraft, it can be lifted by the airflow when it reaches a certain speed, and as long as this lift is maintained during the flight, it will fly in the air. So, in layman's terms, the reason why an airplane is so heavy and doesn't fall off is because it is held up by air currents. Of course, if the plane has an engine shutdown accident in the air, it loses speed and loses the lift of the airflow, and the plane will fall from the sky.
First of all, the reason why an airplane does not fall off is because it has the lift. When the wings of an airplane separate the air by flying at high speed and changing angles, an upward force is created. This force is just enough to cancel out gravity and allow the plane to fly in the air.
Secondly, the aircraft is designed to provide stability. The aircraft adopts the design of three-point support, that is, the wheels of the front of the fuselage and the support of the wings on both sides, so as to ensure the stability of the aircraft. At the same time, the rudder surface of the aircraft can be adjusted up and down, left and right, so that the attitude and direction of the aircraft can be controlled to ensure the safety of the flight.
In addition, the aircraft is equipped with an advanced automatic control system, which can detect and adjust the aircraft's speed, altitude, direction, and other parameters in flight. In this way, not only the safety and stability of the aircraft are improved, but also the workload of the pilot is greatly reduced.
Overall, the fact that the plane does not fall is the result of the interaction between lift and mechanical structure. At the same time, the aircraft uses an advanced control system, which ensures the safety and stability of the flight.
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In 1903, the Wright brothers of the United States built the first manned aircraft, the Aviator 1, which relied on its own power to carry out manned flights, and successfully flew it.
For professionals, they think the principle of airplane flight is the simplest knowledge, but for most of our non-professional robots, there are many people who don't understand it.
An airplane has two basic characteristics: one is that it is denser than air, and it is powered to move forward; The second is that the aircraft has fixed wings, which provide lift and allow the aircraft to soar through the sky.
The lift-off of an airplane relies on aerodynamic power, which is different from a balloon or balloon-like airship that lifts off by air buoyancy. Balloons and airships are lifted by the upward buoyancy of the air due to the fact that the specific gravity of the gas in them is different from that of the air, which is smaller than the specific gravity of the air. However, the specific gravity of the airplane is much larger than the air, and the density of the air is so small that it can only provide very little buoyancy, and the stationary airplane cannot fly.
However, if the aircraft is propelled in the air, it can only fly off the ground if it reaches a certain speed and other conditions, even if it is ***, it also relies on aerodynamic force, relying on it is the rotor to rotate to a certain speed and reach a certain lift before it can be lifted into the air.
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Because the plane has wings, there are engines.
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