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What kind of energy does a man on the top of a mountain have?
The man on the top of a mountain would have potential energy due to his elevated position. This potential energy can be converted into kinetic energy if the man moves down the mountain.
What kind of energy does a balloon floating in the air have than a boulder a the top of a cliff?
The balloon floating in the air has potential energy due to its height above the ground, while the boulder at the top of the cliff also has potential energy for the same reason. The balloon may have some additional energy due to its compressed air inside, but both objects primarily have potential energy in this scenario.
What kind of energy is falling rocks from the top of the mountain?
The energy possessed by falling rocks is primarily potential energy that is being converted into kinetic energy as they fall.
What type of energy does a boulder have as it sits on the top of a cliff 30 feet above the ground?
Gravitational potential energy as work is to be done to shift to such a height
What type of energy is A skier at the top of a mountain?
kinetic energy
What energy does a boulder have sitting on top of a mountain?
A rock on the top of a hill has potential energy. When it falls it has kinetic energy. You are probably in 6th grade to be learning this. :) Hope this helped you!
What kind of energy does a man on the top of a mountain have?
The man on the top of a mountain would have potential energy due to his elevated position. This potential energy can be converted into kinetic energy if the man moves down the mountain.
What kind of energy does a balloon floating in the air have than a boulder a the top of a cliff?
The balloon floating in the air has potential energy due to its height above the ground, while the boulder at the top of the cliff also has potential energy for the same reason. The balloon may have some additional energy due to its compressed air inside, but both objects primarily have potential energy in this scenario.
What kind of energy is falling rocks from the top of the mountain?
The energy possessed by falling rocks is primarily potential energy that is being converted into kinetic energy as they fall.
What type of energy does a boulder have as it sits on the top of a cliff 30 feet above the ground?
Gravitational potential energy as work is to be done to shift to such a height
What type of energy is A skier at the top of a mountain?
kinetic energy
What does A boulder perched at the top of a cliff has?
A boulder perched at the top of a cliff has significant potential energy due to its elevated position above the ground. This energy could be released if the boulder were to fall, potentially causing damage or injury. Additionally, it may serve as a natural landmark or habitat for certain wildlife, contributing to the ecosystem of the area.
What energy does a skierhas at topppof a hill and coming down a hill?
When skier is at the top of mountain he had kinetic energy which is further converted in to potential energy from the time when he start skiing from the top of the mountain.
What type of energy does a skier at the top of the mountain has?
A skier at the top of the mountain has potential energy, which is the energy stored in an object due to its position or state. As the skier moves downhill, potential energy is gradually converted into kinetic energy, the energy of motion.
What energy is falling rocks from the top of a mountain?
Potential energy is being converted into kinetic energy as the rocks fall from the top of the mountain. The higher the rocks are initially, the more potential energy they have, and as they fall, this potential energy is converted into kinetic energy, which is the energy of motion.
What are Examples of storing gravitational potential energy?
Examples of storing gravitational potential energy include: Water in a raised dam A boulder at the top of a cliff A book on a high shelf A person at the top of a staircase.
What type of energy is falling rocks from mountain top?
The energy of falling rocks from a mountain top is primarily potential energy being converted to kinetic energy as the rocks fall. This transformation occurs due to the force of gravity acting on the rocks.
