Understanding Reflection and Ion Movement in EM Waves

In summary, the reflection is the waves radiated in the opposite direction of the incident wave. This happens because the thick layer of water doesn't stop the waves like normal air does.
  • #1
Thierry12
25
0
1. Since skin depth is the attenuation of the wave in a conductor, this means the reflection isen't the incident wave... so what is the reflection?

2. Water doesn't stop light since it's frequency is too high, i saw on forum it's because the big ions can't move fast enought. How can that be? Wont they move as the same frequency as the wave?

Ty
 
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  • #2
Thierry12 said:
1. Since skin depth is the attenuation of the wave in a conductor, this means the reflection isen't the incident wave... so what is the reflection?

2. Water doesn't stop light since it's frequency is too high, i saw on forum it's because the big ions can't move fast enought. How can that be? Wont they move as the same frequency as the wave?

Ty

The incident wave penetrates deeper than the skin layer. It makes the electrons oscillate and radiate in all directions. The waves radiated in the incident wave direction add with the incident wave. The thicker layer, the more intense the radiated wave. It happens it has the opposite sign amplitude. So the radiated and incident waves gradually cancel when you go inside.

The waves radiated with the electrons in the opposite direction are called the "reflected" waves.

In water there too few free electrons to radiate under the incident wave influence. Yet the same phenomenon takes place, so you have reflection from the water volume too.

Bob.
 
  • #3
thanks alot!
 
  • #4
Can someone tell me why waves arent comming out of every borders since it radiates in all directions?
 
  • #5
The total wave does not radiate in every direction though. You can decompose any wave into being the result of a summation of point sources. These point sources radiate in all directions using a spherical wave. But the sum total of all these sources is not guaranteed to radiate isotropically.

Either way though, for the most part there is generally some reflection of waves off of all surfaces.
 
  • #6
thanks a lot for the help again!
 

Related to Understanding Reflection and Ion Movement in EM Waves

1. What are electromagnetic waves?

Electromagnetic waves are a type of energy that is created by electric and magnetic fields. They travel at the speed of light and have both electric and magnetic components that oscillate perpendicular to each other.

2. How are electromagnetic waves produced?

Electromagnetic waves are produced by the acceleration of electric charges. This can occur naturally, such as in the case of lightning, or artificially, such as through the use of electronic devices.

3. What is the electromagnetic spectrum?

The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation. It includes various types of waves, such as radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, X-rays, and gamma rays.

4. How do electromagnetic waves interact with matter?

Electromagnetic waves can be absorbed, reflected, or transmitted when they interact with matter. The type of interaction depends on the frequency of the wave and the properties of the material it encounters.

5. What are the applications of electromagnetic waves?

Electromagnetic waves have a wide range of applications, including communication (radio waves), cooking (microwaves), medicine (X-rays), and entertainment (visible light for television and movies). They also play a crucial role in technology, such as in the production of electricity through generators and in the functioning of electronic devices.

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