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Kinetic energy.
The melting and cooling of a metamorphic rock will allow it to turn into an Igneous rock.
Thermal energy -apex (:
Thermal energy -apex (:
The melting and cooling of a metamorphic rock will allow it to turn into an Igneous rock.
Whether it has (gravitational) potential energy or not depends on what level you (arbitrarily) define as zero. If you define the bottom of the ledge as the "zero" level, then the top of the ledge will have positive energy. If you define the top of the ledge as the "zero" level, then the object on the top of the ledge will have zero potential energy (and at the bottom of the ledge it will have negative potential energy). In any case, at the top of a ledge, an object will have more potential energy than at the bottom of the ledge, because it requires work to push the object up; also, in principle the potential energy can be recovered (converted to some other type of energy) if the object falls down.
Potential energy.
Potential Energy
Kinetic energy.
Kinetic energy
The rock type that is associated with a high-energy environment is sedimentary. High-energy environments usually produce sedimentary rocks with larger grain sizes.
Thermal energy -apex (:
Thermal energy -apex (:
Gravitational potential energy is the type of energy stored in an object if it is raised in a gravitational field. A rock on top of a hill is a good example of this as it has a higher potential energy than a rock at the bottom of a hill.
A rock at the edge of a cliff has potential energy. This energy may be converted to kinetic energy by the force of gravity if it falls off the cliff.
The melting and cooling of a metamorphic rock will allow it to turn into an Igneous rock.
Thermal energy -apex (: