The energy of position for a rock on a hill is potential energy, specifically gravitational potential energy. This energy is stored in the rock due to its position above the ground and can be converted into kinetic energy if the rock rolls down the hill.
Processes such as gravity, diffusion, and osmosis do not require energy input to occur. Additionally, objects at rest do not require energy to maintain their state.
Potential energy is stored in a rock due to its position or composition. This energy can be released when the rock falls or breaks apart.
The falling rock possesses potential energy as it falls due to gravity. This potential energy is converted into kinetic energy as the rock accelerates downward.
The rock sitting on top of a cliff has potential energy due to its position above the ground. As the rock falls, this potential energy is converted into kinetic energy.
Non-living things do not require energy as they do not have processes that need to be sustained or powered. Examples include rocks, water, and air.
no it does not require energy.
endothermic reactions require energy
All living organisms (not dead) require energy
thinking, dreaming require energy
All of your cells require energy. Without energy you wouldn't be alive.
The energy of position for a rock on a hill is potential energy, specifically gravitational potential energy. This energy is stored in the rock due to its position above the ground and can be converted into kinetic energy if the rock rolls down the hill.
Processes such as gravity, diffusion, and osmosis do not require energy input to occur. Additionally, objects at rest do not require energy to maintain their state.
All living organisms (not dead) require energy
Heat energy
The force that adds potential energy to a rock until the rock changes is gravity. As the rock is lifted against the force of gravity, potential energy is stored in the rock. Once the rock falls or is released, this potential energy is converted into kinetic energy, causing the rock to change position or state.
Potential energy is stored in a rock due to its position or composition. This energy can be released when the rock falls or breaks apart.