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<> in order for the plane to fly, the recoil of the wind has to be used to counteract gravity. Gravity is down, so the recoil force is up, so the wind has to go down.
Of course, on the other side of the earth, you can understand that they are blowing upwards.
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It is true that the wind is blowing downward, but the reason is completely wrong, and the statement that the recoil force counteracts gravity is completely wrong, which belongs to a phenomenon that is explained by one's own understanding.
The suspension or movement of objects with a density greater than the air above the surface is entirely a matter of aerodynamics, and in principle, it has nothing to do with gravity, and the magnitude of gravity only affects the magnitude of the work.
In addition, the force diagram of the drone's movement is cited. It is not appropriate to use the question to explain the subject.
The drone blades blow downward, causing the pressure difference between the upper and lower UAVs to be unbalanced, and the aircraft flight is to use the pressure difference, and the upper pressure is less than the lower pressure, resulting in upward suction. The ability of the aircraft to fly is the result of the suction generated by the air pressure mainly acting on the wings (the suction force of the quadcopter drone does not only affect the wings), which is one of the reasons why DJI is expensive, and the design materials are good.
Please understand the specific schematic diagram by yourself.
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At present, the common drone blades are blown downward.
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My drone is the wind is up.
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Summary. Hello kiss <>
The blades of a small drone are usually driven by an electric motor. Inside the motor there is a rotating rotor that starts to rotate when an electric current is passed through the motor. A set of magnets is mounted on the rotor, while the motor is surrounded by a set of coils, and when an electric current is passed through the coils, a magnetic field is generated, and this magnetic field interacts with the magnets on the rotor to make the rotor rotate.
The fan blades are fixed to the motor by bearings connected to the motor shaft. When the motor starts running, the blades also start to rotate. Because the shape and angle of the blades are designed with great precision, they can create a strong air flow that allows the drone to take off, maintain balance, and perform a variety of maneuvers.
How did the blades of the small drone start to turn.
Hello kiss <>
The blades of a small drone are usually driven by an electric motor. Inside the motor there is a rotating rotor that starts to rotate when an electric current is passed through the motor. A set of magnets is mounted on the rotor, while the motor is surrounded by a set of coils, and when the current flow seeps through the coil, a magnetic field is created that interacts with the magnets on the rotor to rotate the rotor.
The fan blades are fixed to the motor by bearings connected to the motor shaft. When the motor starts running, the blades also start to rotate. Because the shape and angle of the blades are designed to be very precise, they can create a strong co-skin airflow that allows the drone to take off, maintain balance, and perform a variety of maneuvers.
In addition to this ride, modern small drones are often equipped with some sensors and control systems, which can monitor the attitude and position of the drone, and adjust the speed of the motor and the angle of the blades as needed, so as to achieve more accurate control and manipulation.
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High winds can blow drones away because the drone's flight is affected by air currents. When the drone is in a strong wind area, the speed and direction of the air flow will change brightly or diffusely, which will affect the stable flight of the drone.
Specifically, during the flight, the drone needs to generate lift and control the flight direction through the acre-wide airflow generated by propellers and other equipment. However, when a strong wind blows, it will change the airflow state of the propeller and fuselage, making the drone lose its balance and stability, so that it cannot control the flight direction, and then be blown away by the wind.
In addition, during the flight, the drone also needs to obtain external environmental information through sensors, remote controls and other equipment, and accurately control the flight. When a strong wind blows, it will interfere with the normal operation of the drone's sensors and remote control, causing the drone to lose control and then be blown away by the wind.
Therefore, when flying a drone, you need to pay attention to meteorological conditions, especially bad weather conditions such as strong winds, to avoid the drone being blown away by the wind. In addition, choosing the right drone model and increasing the weight of the drone can also improve the stability and flight control ability of the drone. Swift and bright.
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Because the drone is very lightweight, it is easy to be blown.
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It will affect the strong air flow of unmanned aircraft, causing the body to be unstable and unable to fly stably through physical principles.
The meteorological environment that affects the flight of the drone mainly includes: wind speed, rain and snow, fog, air density, atmospheric temperature, etc.
Wind speed: It is recommended to fly below level 4 (meters of scattered field seconds), and pay attention to sudden wind phenomena when encountering floors or canyons. The greater the take-off weight, the better the wind resistance.
Rain and snow: Most UAV equipment on the market has no waterproof function, so the water droplets of the rain and snow will affect the short circuit or leakage of the electronic circuit of the aircraft, and secondly, some parts of the mechanical structure are metal materials such as iron or steel, which will corrode or rust after entering the water, affecting the normal operation of mechanical movement.
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Hello, glad to answer for you.
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