Mechanical waves like sound, water waves, earthquake waves, and waves in a stretched string propagate by transferring energy through the vibration of particles in the medium they travel through. As the wave passes, particles in the medium move back and forth in the direction of the wave, transferring the wave's energy from one particle to the next.
Yes, a string with tension has potential energy due to the stored elastic energy within the stretched string. This potential energy is a form of mechanical energy.
When a stretched string is released, the potential energy in the string is converted to kinetic energy, causing the string to vibrate due to the release of stored energy.
Elastic potential energy is stored in a stretched string, which is the energy stored in an object when it is deformed (such as being stretched) and can be released when the object returns to its original shape.
The tension in the string would increase as it is being stretched, causing the string to become tighter. The frequency at which the string vibrates would also increase, resulting in a higher pitch when plucked.
A transverse wave can be produced on a stretched string. In this type of wave, the motion of the particles of the medium is perpendicular to the direction of the wave propagation.
Yes, a string with tension has potential energy due to the stored elastic energy within the stretched string. This potential energy is a form of mechanical energy.
When a stretched string is released, the potential energy in the string is converted to kinetic energy, causing the string to vibrate due to the release of stored energy.
Elastic potential energy is stored in a stretched string, which is the energy stored in an object when it is deformed (such as being stretched) and can be released when the object returns to its original shape.
kinetic energy
The tension in the string would increase as it is being stretched, causing the string to become tighter. The frequency at which the string vibrates would also increase, resulting in a higher pitch when plucked.
Kinetic energy and then to heat.
a line is a set of infinite points. a stretched string is finite.
Examples of mechanical waves include sound waves, water waves, seismic waves, and waves on a string or spring. These waves require a medium (such as air, water, or a solid) to propagate energy through oscillations and vibrations.
A transverse wave can be produced on a stretched string. In this type of wave, the motion of the particles of the medium is perpendicular to the direction of the wave propagation.
When a stretched string is released, the potential energy stored in the string is converted into kinetic energy as the string vibrates. This kinetic energy causes the string to oscillate back and forth until the energy is dissipated as sound waves.
the wave produced in a stretched string will be a standing wave .it will have a node and antinode.node means point with zero displacement and antinode means point with maximum displacement
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