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Compare the potential energy of a 20 kg rock on the edge of 100 m cliff with that of a 20 kg rock perched on the edge of a 50 m cliff.?
The potential energy of the rock on the 100 m cliff is twice that of the rock on the 50 m cliff. This is because potential energy is directly proportional to the height of the object above the reference point. So, the higher the cliff, the greater the potential energy.
Compare the potential energy of a 20 kg rock on the edge of 100 m cliff with that of a 20 kg rock perched on the edge of a 50 m cliff?
The potential energy of the 20 kg rock on the edge of a 100 m cliff is twice as much as the potential energy of the 20 kg rock on the edge of a 50 m cliff. This is because potential energy is directly proportional to the height of the object above the reference point (in this case, the ground).
Does a rock at the edge of a cliff have kinetic energy?
Yes, the rock has potential energy at the edge of the cliff due to its position in relation to the ground. If the rock falls, its potential energy will be converted into kinetic energy as it moves downward.
Does a rock on the edge of a cliff contain kinetic energy?
Yes, a rock on the edge of a cliff contains potential energy due to its position in the Earth's gravitational field. As the rock falls, this potential energy is converted into kinetic energy as it accelerates towards the ground.
What are some examples of gravitational potential energy?
when an apple falls out of a tree, a person jumps off a building and many more
Compare the potential energy of a 20 kg rock on the edge of 100 m cliff with that of a 20 kg rock perched on the edge of a 50 m cliff.?
The potential energy of the rock on the 100 m cliff is twice that of the rock on the 50 m cliff. This is because potential energy is directly proportional to the height of the object above the reference point. So, the higher the cliff, the greater the potential energy.
Compare the potential energy of a 20 kg rock on the edge of 100 m cliff with that of a 20 kg rock perched on the edge of a 50 m cliff?
The potential energy of the 20 kg rock on the edge of a 100 m cliff is twice as much as the potential energy of the 20 kg rock on the edge of a 50 m cliff. This is because potential energy is directly proportional to the height of the object above the reference point (in this case, the ground).
Does a rock at the edge of a 200m high cliff has more potential energy than an equal sized rock at the edge of a 600m high cliff?
Yes, the rock at the edge of the 600m high cliff has more potential energy than the rock at the edge of the 200m high cliff. Potential energy is directly proportional to the height, so the higher the cliff, the more potential energy the rock has.
Does a rock at the edge of a cliff have kinetic energy?
Yes, the rock has potential energy at the edge of the cliff due to its position in relation to the ground. If the rock falls, its potential energy will be converted into kinetic energy as it moves downward.
What name do you give to the energy that the car has on the edge of a cliff?
By virtue of its position on the top of the cliff it has "potential" energy. If it were to fall off the cliff this potential energy would be converted into "kinetic" energy (the energy in movement of a mass).
Is a rock at the edge of a 200-m high cliff has more potential energy than an equal size rock at the edge of a 600-m high cliff?
No. Rocks of equal weight have more potential energy the higher they are.
Does a rock on the edge of a cliff contain kinetic energy?
Yes, a rock on the edge of a cliff contains potential energy due to its position in the Earth's gravitational field. As the rock falls, this potential energy is converted into kinetic energy as it accelerates towards the ground.
What are some examples of gravitational potential energy?
when an apple falls out of a tree, a person jumps off a building and many more
What are objects that possess potential energy?
Some examples of objects that possess potential energy include elastic bands that are stretched, a rock positioned at the edge of a cliff, a compressed spring, and water held high in a dam.
The kinetic energy of a 50 newton object resting on the edge of a cliff 30 meters high is?
The kinetic energy of the object at rest on the edge of the cliff is zero because there is no motion.
What is 3 examples of gravitational energy?
Water stored in a hydroelectric dam has gravitational potential energy due to its position above ground level. A rock held at the edge of a cliff has gravitational potential energy because of its height above the ground. A roller coaster at the top of a loop has gravitational potential energy because of its position above the track.
The potential energy of a 50 newton object resting on the edge of a cliff 30 meters high is?
The word in your question that I keyed on is "resting". An object at rest has zero kinetic energy. If you meant potential energy, the answer is 1500 joules.
