Yes, the boulder perched on a hill has potential energy due to its position with respect to the ground. If the boulder rolls down the hill, its potential energy will be converted into kinetic energy as it gains speed.
True. The boulder rolling down a hill possesses potential energy due to its height above the ground, which can be converted into kinetic energy as it rolls downward.
No, a boulder rolling down a hill is an example of kinetic energy, not potential energy. Potential energy is stored energy that an object possesses based on its position or condition, whereas kinetic energy is the energy possessed by an object in motion.
As the boulder rolls down the hill, it is primarily losing potential energy that it had due to its position on the hill. As it moves, this potential energy is being converted into kinetic energy of motion.
Yes, a boulder rolling down a hill has potential energy. The potential energy is in the form of gravitational potential energy, which is due to its position in the Earth's gravitational field. As the boulder rolls down the hill, this potential energy is converted into kinetic energy.
The type of energy of a boulder sitting on a cliff is potential energy. Potential energy is possible energy as opposed to actual energy. If it were to start rolling down the hill, the energy would change to kinetic energy.
True. The boulder rolling down a hill possesses potential energy due to its height above the ground, which can be converted into kinetic energy as it rolls downward.
No, a boulder rolling down a hill is an example of kinetic energy, not potential energy. Potential energy is stored energy that an object possesses based on its position or condition, whereas kinetic energy is the energy possessed by an object in motion.
As the boulder rolls down the hill, it is primarily losing potential energy that it had due to its position on the hill. As it moves, this potential energy is being converted into kinetic energy of motion.
Yes, a boulder rolling down a hill has potential energy. The potential energy is in the form of gravitational potential energy, which is due to its position in the Earth's gravitational field. As the boulder rolls down the hill, this potential energy is converted into kinetic energy.
A rock on top of a hill has potential energy, not kinetic energy. If it starts rolling down the hill then the potential energy transforms to kinetic energy.
i think a stepper hill has more kinetic energy
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!
The type of energy of a boulder sitting on a cliff is potential energy. Potential energy is possible energy as opposed to actual energy. If it were to start rolling down the hill, the energy would change to kinetic energy.
Rolling down a hill involves both potential and kinetic energy. At the top of the hill, the object has potential energy due to its height. As it rolls down, this potential energy is converted into kinetic energy as the object gains speed.
I can be harmful because sometimes when a large boulder is sitting on top of a small rocky hill and it starts to move which is called kinetic energy it might crush a person hiking below
The roller coaster does not have kinetic energy at the top of the hill
Kinetic energy comes from movement. If the roller coaster is moving at the top of the hill, it has kinetic energy. if the rollercoaster isn't moving then it has potential energy.