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No, the amplitude of the wave does not change when you shake a rope faster and faster. The amplitude of a wave is determined by its initial displacement from the rest position and is independent of the frequency or speed at which the wave is generated.

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Q: Does the amplitude change if you shake a rope faster and faster?
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Related questions

How can you change the wavelength of a wave in a rope without changing the amplitude?

You can change the wavelength of a wave in a rope by altering the tension in the rope. Increasing the tension will decrease the wavelength, while decreasing the tension will increase the wavelength. This change affects the speed of the wave, not its amplitude.


When you shake the end of a rope to make a wave how can you increase?

To increase the amplitude of the wave when shaking a rope, you would need to apply more force or shake the rope faster. This would create larger ripples or waves traveling along the rope. The frequency of your shakes can also affect the size and speed of the wave produced.


How would shake the end of the rope to increase the energy carried by the wave?

You can increase the energy carried by the wave by shaking the end of the rope faster and with greater amplitude. This will create larger and more frequent waves that will carry more energy along the length of the rope. Additionally, adding more tension to the rope can also increase the energy of the waves.


Do you shake the end of the rope slowly or rapidly to make the wavelength shorter?

You should shake the end of the rope rapidly to make the wavelength shorter. Increasing the frequency of the wave by shaking it rapidly will decrease the distance between consecutive crests, thus shortening the wavelength.


When using a rope to make waves do you make a larger amplitude or smaller amplitude?

To create larger waves when using a rope, you will need to make a larger amplitude. By moving your hand or shaking the rope with larger excursions, you can generate bigger waves. Conversely, smaller amplitudes would result in smaller waves.


You make a transverse wave by shaking the end of a long rope up and down. explain how you shake the end of the rope to make the wave length shorter. How would you shake the end of the rope to increase?

To make the wavelength shorter, you would increase the frequency by shaking the end of the rope up and down faster. This would cause more waves to be produced in a given time, thus reducing the distance between each wave. To increase the wavelength, you would decrease the frequency by shaking the end of the rope up and down slower, resulting in longer distances between waves.


You and a friend each hold one end of a rope and shake it to make waves. what is the medium for these waves?

The medium for these waves is the rope itself. As you and your friend shake the rope, it transmits the energy through its molecular structure, causing the waves to travel along its length.


If kids were wobbling this rope up and down through pudding instead of air what would change?

The force exerted by the kids to pull the rope up and down would increase. The motion would not be fluid (you wouldn't get a perfect harmonic wave). You're amplitude might change if the kids weren't able to exert the proper amount of force.


Is cutting a rope a physical change?

Yes, cutting a rope is a physical change because it alters the physical form or appearance of the rope without changing its chemical composition.


How could two waves on a rope interfere so that the rope didn't move at all?

If two waves on a rope are identical in amplitude and opposite in phase, they will interfere destructively, causing the rope to not move at all. This is because the peaks of one wave align with the troughs of the other, resulting in their amplitudes canceling each other out.


What is the direct measure of energy from mechanical wave?

The direct measure of energy from a mechanical wave is its intensity, which is the rate at which energy is transferred through a unit area perpendicular to the direction of wave propagation. This intensity is proportional to the square of the amplitude of the wave.


What do water waves not transport?

98% of water is not moving when it waves. One thing you can do to test this is get a rope and shake it. I hope this is what you meant.