Standing Waves: Incident and Reflected Waves' Equal Frequency

In summary, standing waves form when the frequency of the incident wave is equivalent to the reflected wave's frequency, according to Newton's 3rd law. However, for the waves to cancel out through destructive interference, they would need to travel in the same direction and have equal frequency and amplitude.
  • #1
jeehoo
2
0
Homework Statement
How does a standing wave form?
Relevant Equations
Newton's 3rd Law
I learned that standing waves form when the incident wave's frequency is equivalent to the reflected wave's frequency. But I also learned that according to Newton's 3rd law, when a wave hits a boundary, the reflected wave continues to travel in the opposite direction but has equal frequency and amplitude as the incident wave. But if this is the case, wouldn't the incident and reflected waves cancel each other out by destructive interference?
 
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  • #2
To cancel at all times and places, they would have to be traveling in the same direction.
jeehoo said:
equal frequency and amplitude
There is a third parameter, and it is important in wave reflection.
 

1. What is a standing wave?

A standing wave is a type of wave that forms when two waves with equal frequency and amplitude travel in opposite directions and interfere with each other. This creates a pattern of nodes (points of no displacement) and antinodes (points of maximum displacement) that do not move, giving the appearance of a stationary wave.

2. How are standing waves formed?

Standing waves are formed when an incident wave (traveling wave) and a reflected wave (bouncing wave) of equal frequency and amplitude interfere with each other. This interference causes the wave to appear to stand still, as the peaks and troughs of the two waves cancel each other out at certain points.

3. What is the relationship between the incident and reflected waves in a standing wave?

In a standing wave, the incident and reflected waves have equal frequency and amplitude, meaning that they have the same wavelength and travel at the same speed. However, they travel in opposite directions and interfere with each other to create the standing wave pattern.

4. What is the importance of equal frequency in standing waves?

Equal frequency is important in standing waves because it is what allows the incident and reflected waves to interfere with each other and create the standing wave pattern. If the waves had different frequencies, they would not be able to create a stable interference pattern and the waves would not appear to stand still.

5. How are standing waves used in real-world applications?

Standing waves have a variety of practical applications, including in musical instruments, such as stringed instruments and wind instruments, where they create specific resonant frequencies. They are also used in medical imaging, such as ultrasound, and in telecommunications, where they are used to transmit and receive signals in the form of microwaves.

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