Reappearing Waves: Hi! Uncover the Mystery

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In summary, when two equal waves meet in destructive interference, the resultant wave appears to be flat because the particles are not moving. However, the waves do not actually disappear, they continue to exert equal and opposite forces on the particles. When the waves move past each other, the forces are no longer acting on the same particles, causing the displacement to return. This is due to the continuous flow of energy in mechanical waves, even in the nodes where the potential energies cancel out.
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When two equal waves meet in a destructive interference a short while the resultant wave is flat. What makes the waves reappear?
 
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I see what you mean, but they don't "REappear" because they have never disappeared they have just had a momentary interaction that results in zero amplitude.
 
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What makes the waves reappear?

Do you have an example of this. As far as I am aware if two wave of equal magnitude and opposite phase destructively interfere with each other the waves do not spontaneously "reappear".
 
  • #5
As phinds pointed out - the motion of the particles returns because the destructively interfering waves have moved past each other.

Consider - a ball, bouncing, is stationary in the instant that it strikes the surface - then, in the next instant, the motion reappears (in the opposite direction). How did this happen?

Simplistically: In the pulse on a string - what happens is that there are two forces displacing the particles. They are equal and opposite but they act in different places so you see different pulses. They move towards each other - when they act in the same place, the forces oppose each other directly for no net result, but the thing providing the two forces has not gone away - they are both still pulling on the particles. When the forces move past each other they are no longer acting on the same particle, so the displacement returns.
 
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Thanks!
 
  • #7
In mechanical waves of any sort, there is a constant flow of energy because any mechanism that's supporting a mechanical wave can be looked upon as a series of masses, joined by springs (or the equivalent) and there is a combination of Potential and Kinetic energies. When the displacement happens to be zero (zero PE), the velocity (KE) is at a maximum. So there is still energy flow even though the displacements in the two interfering waves appears to be zero. The energy hasn't 'disappeared' anywhere - you just don't recognise it's there in the nodes, where the two potential energies add together.
 

FAQ: Reappearing Waves: Hi! Uncover the Mystery

1. What are "Reappearing Waves"?

"Reappearing Waves" refer to a phenomenon in which waves that were previously thought to have disappeared or dissipated, suddenly reappear at a later time. This can occur in various forms of waves, such as sound, light, or water waves.

2. How do "Reappearing Waves" occur?

The exact mechanism behind the occurrence of "Reappearing Waves" is still not fully understood. However, it is believed that these waves may be reflected or refracted, causing them to travel in unexpected paths and eventually reappear at a different location.

3. Can "Reappearing Waves" be predicted?

Currently, there is no reliable method for predicting when and where "Reappearing Waves" will occur. This is due to the complex nature of wave behavior and the many variables that can influence their movement.

4. Are there any real-world applications for understanding "Reappearing Waves"?

Yes, there are several potential applications for understanding "Reappearing Waves". For example, in the field of oceanography, understanding how waves reappear can help us better predict and track ocean currents. In the field of optics, it can aid in the development of advanced technologies such as holography.

5. What research is currently being done on "Reappearing Waves"?

Scientists are continuously studying "Reappearing Waves" in various fields, such as physics, engineering, and oceanography. This research involves conducting experiments, developing mathematical models, and using advanced technologies to better understand and predict the behavior of these waves.

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