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First of all, to correct one point, electromagnetic waves have mass. This can be obtained by combining the conservation of momentum with the special theory of relativity. Many experiments have also proved that there is mass in electromagnetic waves.
In addition, when electromagnetic waves propagate through the air, they interact with molecules in the air and scatter them. Some electromagnetic waves with very short wavelengths can even be absorbed, or excited by molecules in the air to emit photons. Obviously, the denser the molecules in the air, the stronger the action.
The reason why wind occurs is precisely because the density of molecules in the air changes over time, so electromagnetic waves are disturbed in the wind. Of course, in practice this interference is very, very small. Unless it's a large storm in the ionosphere.
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That's right, it is the wind that changes the density of the air, which affects the transmission of electromagnetic waves, and affects the refraction and reflection angles of electromagnetic waves.
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The wind will rub against the air and produce weak electromagnetic waves, thus interfering with the normal propagation of electromagnetic waves!!
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The first thing to say is that the wind is moving air (if you mean the solar wind, which is not the usual wind, you have to explain it separately). Electromagnetic waves are formed by electric magnetic fields, and their propagation does not require any medium.
So electromagnetic waves are not affected by the wind and are not interfered with by the wind.
It's like sitting under a fan and talking on your phone. There is no impact.
If it will be affected by the wind, then there is still a mobile phone in this world.
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From the macro conditions, the wind will not affect the propagation of electromagnetic waves, and from the micro conditions, the wind can affect the propagation of electromagnetic waves, and the wind can change the density of the air.
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Wind does not affect the propagation of electromagnetic waves, only the movement of a dielectric or magnetic medium in an electromagnetic field does, whereas wind is not a dielectric or magnetic medium.
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It should be, because electromagnetic waves need a medium to be transmitted, and the wind should affect the transmission speed of the medium.
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Theoretically, it is impossible for the wind to affect the electromagnetic field, because the wind is a physical one, and the wind energy changes the thing with a certain shape, and what changes is the kinetic energy of the object; The electromagnetic field is a radiation field, this field has a certain potential energy, this kinetic energy will not be converted into potential energy in the absence of external special medium, therefore, the wind will not change the electromagnetic field, nor will it affect the signal strength. Light can be compared to electromagnetic waves, and wind does not cause changes in the intensity of light.
In practice, the wind can change the magnitude of the electromagnetic field by changing other electromagnetic wave propagation mediums or vice versa. For example, the wind can blow the clouds over a certain area, and the thickness of the clouds has a certain proportion of the propagation of electromagnetic waves, so it will cause changes in the process of electromagnetic wave propagation.
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No. Wind is a fluid and cannot affect electromagnetic fields.
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