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At the top of the hill, the skier possesses potential energy. As he travels down the hill, his potential energy is converted into his kinetic energy. Conservation of energy says that the skiers potential energy equals his kinetic energy further downslope (plus a little lost to heat from friction).

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Explain how a skier gliding down a hill illustrates the conservation of energy.?

because the skis are on the snow it causes friction which turns in to heat causing the skier to stop


How a skier gliding down a hill illustrates the conservation of energy?

because the skis are on the snow it causes friction which turns in to heat causing the skier to stop


A skier on a hill has potential energy due to?

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What kind of energy would a skier have at the top of a hill have more than a skier at the bottom of the hill?

A skier at the top of a hill would have more potential energy due to their elevated position compared to a skier at the bottom of the hill. This potential energy can be converted into kinetic energy as the skier descends the hill.


What energy dose a skier has at the top of a hill and coming down a hill?

At the top of a hill, a skier has potential energy due to their position above the ground. As the skier comes down the hill, this potential energy is converted into kinetic energy as the skier gains speed.


What type of energy is A skier at the top of a mountain?

kinetic energy


What type of energy does a skier at the top of the mountain has?

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What kind of energy does a skier have at the top of a hill?

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When a skier goes up a hill and down a hill what energy is that?

The skier going up the hill gains potential energy due to its height increase, which is stored energy that can be released when the skier goes back down the hill. As the skier goes down the hill, the potential energy is converted into kinetic energy, which is the energy of motion.


What type of energy is a skier poised to take off at the top of a hill?

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What kind of energy would a skier have if standing at the top of a hill?

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