Question about the destructive interference of radiation.

In summary: This allows for the energy to be distributed throughout the material, preventing any violation of the law of energy conservation. The interference does not cause the radiation to disappear, but rather redistributes it to different areas of the material. The material itself does not create the interference, but rather the interaction of the radiation signals creates the interference. Therefore, the material can still absorb energy and heat up when exposed to the two radiation signals, as long as it is larger than the zone of interference. In summary, when two radiation signals cancel each other out through destructive interference, the energy is simply redistributed to different areas of the material, allowing for absorption and heating to still occur.
  • #1
Bararontok
298
0
If two radiation signals cancel each other out through destructive interference, is it still possible for a material to absorb energy and heat up when exposed to the two radiation signals?
 
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  • #2
The thread originator is waiting for a response.
 
  • #3
The destructive interference merely forces the radiation to be absorbed elsewhere. If your material is larger than the zone of interference the radiation will still be absorbed.
 
  • #4
When identical waves interfere, the amplitude of the resulting wave depends on the relative phase of the two waves. When the peak of one wave aligns with the peak of the second wave, the waves are in phase and produce a wave with the largest possible amplitude. When the peak of one wave aligns with the trough of the other wave the waves are out of phase by and produce a wave with the smallest possible amplitude, zero!
 
  • #5
The material won't absorb any energy at any spot where the radiation cancels out. If you ever wondered why microwave ovens have either rotating plates or scattering blades, it's because otherwise you would have hot and cold spots in your food where the microwaves add or cancel out.
 
  • #6
Khashishi said:
The material won't absorb any energy at any spot where the radiation cancels out. If you ever wondered why microwave ovens have either rotating plates or scattering blades, it's because otherwise you would have hot and cold spots in your food where the microwaves add or cancel out.

But according to the following statement:

Drakkith said:
The destructive interference merely forces the radiation to be absorbed elsewhere. If your material is larger than the zone of interference the radiation will still be absorbed.

The energy would still be absorbed. Otherwise if the radiation signals are canceling out and just disappear, that would violate the law of energy conservation because the energy cannot just disappear. Or perhaps, could the interfering signals just pass through the material and continue to travel into space?
 
  • #7
Note I said hot AND cold spots. The cold spots are where the microwaves interfere destructively. The hot spots are where they interfere constructively.
 
  • #8
Bararontok said:
But according to the following statement:



The energy would still be absorbed. Otherwise if the radiation signals are canceling out and just disappear, that would violate the law of energy conservation because the energy cannot just disappear. Or perhaps, could the interfering signals just pass through the material and continue to travel into space?

The radiation isn't absorbed at the dark spots where destructive interference happens, but is instead absorbed at the light spots where constructive interference happens.
 

1. What is destructive interference?

Destructive interference is a phenomenon that occurs when two waves of the same frequency and amplitude meet and cancel each other out, resulting in a decrease in the overall amplitude of the resulting wave.

2. How does destructive interference affect radiation?

Destructive interference can cause a decrease in the intensity of radiation, as the waves cancel each other out. This can also lead to a decrease in the energy of the radiation.

3. What causes destructive interference of radiation?

Destructive interference of radiation occurs when two radiation sources are out of phase, meaning that their peaks and troughs do not align. This can also occur when radiation passes through a medium that causes a phase shift.

4. What are some examples of destructive interference of radiation?

One example of destructive interference of radiation is when sound waves from two speakers cancel each other out, resulting in a decrease in volume. Another example is when light waves reflect off of a thin film and interfere with each other, causing certain colors to appear more vibrant or disappear completely.

5. How can we use destructive interference of radiation?

Destructive interference of radiation can be used in noise-cancelling technology, where sound waves are created to cancel out unwanted noise. It can also be used in optical coatings, where thin films are designed to cause destructive interference of certain wavelengths of light, resulting in specific colors being reflected.

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