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What energy is used when an archer shoots an arrow into a target?
The archer draws the bow, hard work which stores energy in the bow. When the arrow is released, that energy is quickly converted into kinetic energy, which allows the arrow to fly through the air at speed and penetrate the target.
What kind of energy is the archer giving the string of a bow?
The archer is imparting potential energy to the bowstring by drawing it back. This potential energy is converted into kinetic energy when the bowstring is released, propelling the arrow forward.
When a stretched string is released the potential energy in the string is converted to?
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.
When a stretched string is released the potential energy in the string is convrted?
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.
Does a string with tension have energy if yes what kind?
A string under tension has potential energy, which will be liberated as kinetic energy should the string break or be released.
What energy is in a bow and arrow?
There is no energy there until the bow string is stretched. The human arm pulling back on the bow string is the source of the energy which is stored mechanically in the flexure of the bow and converted into the kinetic energy of the arrows flight when the archer releases the arrow.
What energy is used when an archer shoots an arrow into a target?
The archer draws the bow, hard work which stores energy in the bow. When the arrow is released, that energy is quickly converted into kinetic energy, which allows the arrow to fly through the air at speed and penetrate the target.
What kind of energy is the archer giving the string of a bow?
The archer is imparting potential energy to the bowstring by drawing it back. This potential energy is converted into kinetic energy when the bowstring is released, propelling the arrow forward.
When a stretched string is released the potential energy in the string is converted to?
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.
When a stretched string is released the potential energy in the string is convrted?
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.
Does a string with tension have energy if yes what kind?
A string under tension has potential energy, which will be liberated as kinetic energy should the string break or be released.
When a strethched string is released the potential energy in the string is converted to?
When a stretched string is released, the potential energy stored in the string is converted into kinetic energy as the string vibrates back to its equilibrium position. This kinetic energy causes the string to oscillate and produce sound waves.
What type of energy increases when you compress a string?
When you compress a string, the potential energy stored in the string increases. This potential energy is due to the elastic properties of the material and is stored as strain energy. When the string is released, this energy is converted back into kinetic energy as the string returns to its original shape.
When a stretched string is released the potential energy in the string is converted?
kinetic energy
When a stretches string is released the potential energy in the string is converted to?
kinetic energy
When a streched string is released the potential energy is converted to?
When a stretched string is released, the potential energy is converted into kinetic energy as the string vibrates. The string's vibrations create sound waves, which carry energy away in the form of sound.
When a stretched string is released the potential energy in the string is converted to .?
Kinetic energy and then to heat.
