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Stringed instruments such as violins rely on the vibrations of strings to create specific frequencies.

When a violin string is plucked, which of the following occurs when the string is displaced by its greatest amount?

Answer :

Stringed instruments such as violins rely on the vibrations of strings to create specific frequencies. When a violin string is plucked, potential energy is maximum and kinetic is minimum. Option 2

What is potential energy?

Potential energy is a form of stored energy that is dependent on the relationship between different system components. When a spring is compressed or stretched, its potential energy increases. If a steel ball is raised above the ground as opposed to falling to the ground, it has more potential energy.

The greatest family of instruments in the orchestra are the strings, which are divided into four sizes: the violin, which is the smallest, the viola, the cello, and the double bass, also known as the contraba.

any musical instrument with stretched strings that vibrate to make sound; these strings could be composed of metal or vegetable fiber. Some string instruments, like the harp and the electric bass, are mostly plucked.

Read more on Stringed instruments here:https://brainly.com/question/26557019

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Stringed instruments such as violins rely on the vibrations of strings to create specific frequencies.

When a violin string is plucked, which of the following occurs when the string is displaced by its greatest amount?

  1. inertia, it has a heavier mass
  2. potential energy is maximum and kinetic is minimum

Final answer:

When a violin string is plucked, it is displaced by its greatest amount at its maximum amplitude, which causes the surrounding air molecules to oscillate and produce sound waves.

Explanation:

When a violin string is plucked, it is displaced by its greatest amount when it reaches its maximum amplitude. The amplitude refers to the maximum distance the string moves from its equilibrium position.

For example, when a violinist plucks the A string of the violin, it will vibrate back and forth in a periodic motion with the greatest amplitude at the beginning. As the string continues to vibrate, the amplitude decreases until it eventually comes to rest.

This displacement of the string at its maximum amplitude causes the surrounding air molecules to also oscillate, generating sound waves that form the specific frequencies and notes produced by the violin.