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Identify the type of energy stored in a streched bungee cord?
The type of energy stored in a stretched bungee cord is elastic potential energy. This energy is stored in the cord when it is stretched and can be released when the cord is allowed to contract back to its original length, such as when a person jumps off a platform attached to the bungee cord.
What energy is stored in the rubber band?
Potential energy is stored in a stretched rubber band. This potential energy is a result of the elastic potential energy stored in the rubber band due to its stretched state.
What type of energy is stored in a stretched bungee cord?
Potential energy is stored in a stretched bungee cord. This potential energy is due to the elastic potential of the cord being stretched and ready to do work when released.
What kind of energy stored in rubber band?
Astretched rubber band has potential energy.
What energy is useful and what energy is wasted in a bungee jumper?
Useful energy would be the potential energy stored in the bungee cord when it is stretched out at the top of the jump, which is converted to kinetic energy as the jumper falls. Energy that is wasted would include any sound, heat, and other forms of energy dissipated as the bungee cord stretches and returns to its original length.
Identify the type of energy stored in a streched bungee cord?
The type of energy stored in a stretched bungee cord is elastic potential energy. This energy is stored in the cord when it is stretched and can be released when the cord is allowed to contract back to its original length, such as when a person jumps off a platform attached to the bungee cord.
What energy is stored in the rubber band?
Potential energy is stored in a stretched rubber band. This potential energy is a result of the elastic potential energy stored in the rubber band due to its stretched state.
What type of energy is stored in a stretched bungee cord?
Potential energy is stored in a stretched bungee cord. This potential energy is due to the elastic potential of the cord being stretched and ready to do work when released.
What kind of energy stored in rubber band?
Astretched rubber band has potential energy.
What kind of energy is 'stored 'in the rubber band?
Potential energy
What kind of energy stored in the rubber band?
Potential energy
What energy is useful and what energy is wasted in a bungee jumper?
Useful energy would be the potential energy stored in the bungee cord when it is stretched out at the top of the jump, which is converted to kinetic energy as the jumper falls. Energy that is wasted would include any sound, heat, and other forms of energy dissipated as the bungee cord stretches and returns to its original length.
Which has potential energy stored in the form of elastic energy?
A stretched rubber band has potential energy stored in the form of elastic energy. This energy is stored when the rubber band is stretched and can be released when the band is allowed to return to its original shape.
When the rubber band on the airplane is released the stored becomes energy spinning the proppeller?
I think the answer you are looking for is the stored energy (elastic potential energy) in the twisted rubber band becomes kinetic energy.
Is stretched rubber band a potential energy or kinetic energy?
A stretched rubber band is potential energy because the energy is stored.
What kind of energy is stored in the rubber band on the rolling toy?
The energy stored in the rubber band of the rolling toy is elastic potential energy. This energy is stored as the rubber band is stretched and can be released to propel the toy forward when it is let go.
Can bungee jumping have gravitational potential energy and how?
Yes, potential energy is an energy something has because of its position in a gravitation field. Thus the jumper standing on the bridge before the jump has gravitational potential energy. When the jumper jumps the gravitational potential energy is converted into kinetic energy (the energy something has because of it motion) an is also stored in the rubber band as elastic strain energy. When the energy stored in the rubber band exceeds the kinetic energy the jumper halts and bounces back and the energy in the rubber is re converted into potential energy. The jumper oscillates on the rubber rope until the energy loss due to friction and wind resistance uses up the potential energy present in the system at the start of the jump and the jumper hangs still from the rope.
