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How does a skier gliding down a hill illustrate the conservation of energy?

Updated: 11/2/2022
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14y ago
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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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Q: How does a skier gliding down a hill illustrate the conservation of energy?
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Related questions

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

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

A skier who has more blank energy than a skier at the bottom?

A skier at the top has more potential energy

A skier on a hill has potential energy due to?

the height of the skier.

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

kinetic energy

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

Gravitational potential energy.

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

Kinetic Energy

Describe potential energy?

Potential energy is a fundamental concept in physics and plays a crucial role in understanding the behavior of physical systems and the conservation of energy. When the conditions or positions of objects change, potential energy can be converted into other forms of energy, such as kinetic energy or thermal energy, as objects move or undergo changes in their state.

What is the energy acting on a skier at the top of the hill and ib the bottom?

Potential energy at the top and kinetic energy at the bottom.

What happens to that energy after that skier races down the slope of the mountain?

It's because of kinetic energy

What is main type of energy conversion that happens as a skier goes down a hill?

potential energy

When does a skier the greatest kinetic energy?

before they go down the incline.

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