Stationary Waves: Explaining Amplitude of Wave

In summary, the conversation discusses the formation of a stationary wave with equation y = 2Asinkxcoswt. One person is confused about the amplitude of the wave and asks why it is taken as 2Asinkx instead of 2Acoswt. The other person explains that it depends on the perspective and purpose of measuring the amplitude.
  • #1
arvindsharma
21
0
Dear All,
when two waves y=Asin(wt-kx) and y=A(sinwt+kx) superpose the stationary wave is formed with equation y = 2Asinkxcoswt.in my textbook they take 2Asinkx as amplitude of wave.why didn't they take 2Acoswt as amplitude of stationary wave.please explain me in detail.

I will be thankful to you all.

Arvind
 
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  • #2
Imagine a string that is stretched horizontally and vibrating vertically in a standing wave (stationary wave). There are two ways of looking at it:

1. A point on the string at a fixed horizontal position x oscillates vertically with amplitude 2A sin (kx). All points on the string oscillate with the same frequency, but with different amplitudes that vary with x.

2. On the other hand, if you use a camera to take a snapshot of the vibrating string at a fixed time t, then the "frozen" string has the form of a wave with amplitude 2A cos (ωt).

So it depends on what you mean by "amplitude" and what you want to use it for. Normally, we use view #1, but depending on the circumstances we might use view #2 sometimes.
 
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1. What are stationary waves?

Stationary waves, also known as standing waves, are a type of wave pattern that occurs when two waves with the same frequency and amplitude travel in opposite directions and interfere with each other. They appear to be standing still, hence the name "stationary".

2. How are stationary waves created?

Stationary waves are created when two waves with the same frequency and amplitude travel in opposite directions and interfere with each other. This interference causes certain points, called nodes, to experience constructive interference and remain stationary while other points, called antinodes, experience destructive interference and move up and down with large amplitudes.

3. What is the amplitude of a stationary wave?

The amplitude of a stationary wave is the maximum displacement of the wave from its equilibrium position. This can vary at different points along the wave, with nodes having an amplitude of zero and antinodes having the maximum amplitude.

4. How does the amplitude of a stationary wave change?

The amplitude of a stationary wave remains constant at nodes, but it can change at antinodes depending on the frequency and amplitude of the two interfering waves. If the two waves have the same amplitude, the resulting stationary wave will have a higher amplitude at the antinodes. If one wave has a larger amplitude, the resulting stationary wave will have a smaller amplitude at the antinodes.

5. What is the significance of amplitude in stationary waves?

The amplitude of a stationary wave is important because it determines the energy and intensity of the wave. The higher the amplitude, the more energy the wave carries and the more intense the wave is. In practical applications, controlling the amplitude of stationary waves is crucial for creating specific patterns and resonances that can be utilized in various fields such as music, communication, and medical imaging.

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