Energy, in simple terms, light is made up of electromagnetic waves. If you can see the light emitted by the light source in question, that's enough to show that electromagnetic waves can propagate through water.
Electromagnetic waves can propagate. in any medium and vacuum, electromagnetic waves propagate their own energy in the form of alternating electromagnetic fields, so they can propagate without a medium.
The key to the problem lies in the speed and loss of electromagnetic waves in water.
Can electromagnetic waves pass through any water?
Hello:
1. Methods such as resonance, high temperature and high frequency electromagnetic waves can be used
Generally, as long as the energy of stable water molecules is increased, their vibrations will intensify .
2. Evaporation and tHeat transfer will increase the average distance between water molecules, and heat transfer will also increase the average kinetic energy of the water molecules.
3. Sound waves of specific frequencies... Refer to the content of 1
The answer is complete, if there are any mistakes, please forgive me
>I hope to adopt O(∩_∩)O
This problem is more complicated, because there are many types of electromagnetic waves at different wavelengths, and their penetration capabilities are different. Long wavelengths of radio waves have the longest wavelength and can pass through them. But to be precise, it is not "through", but "around" (diffraction). Short waves from radio waves, microwaves and infrared rays, visible light and ultraviolet rays have longer wavelengths and cannot pass through them. I don't know if x-rays have a longer wavelength.urte and can penetrate iron plates. I only know that they can penetrate bone and thin lead plates, but not muscle and thick lead plates. Gamma rays have the shortest wavelength and are extremely penetrating. Unless it is a lead plate several meters thick, nothing can block it, let alone an iron plate.