relative energy is a type of energy thAT IS HOT and sometimes cold
Relative charge. (And/or relative voltage.)
banannas
Zero. You need to think in terms of "frame of reference" as in what are you comparing the rock to. If you are an observer sitting next to the rock then the kinetic energy of the rock RELATIVE TO YOU is zero - I.E. the rock isn't moving relative to you and thus has no kinetic energy - energy of motion - relative to you. If you are an observer sitting a million miles from earth watching the rock then it is zipping around at 1000 miles per hour as the earth spins on its axis and it has significant kinetic energy RELATIVE TO YOU. You need to think in terms of "frame of reference" as in what are you comparing the rock to. If you are an observer sitting next to the rock then the kinetic energy of the rock RELATIVE TO YOU is zero - i.e. the rock isn't moving relative to you and thus has no kinetic energy - energy of motion - relative to you. If you are an observer sitting a million miles from earth watching the rock then it is zipping around at 1000 miles per hour as the earth spins on its axis and it has significant kinetic energy RELATIVE TO YOU. ---- So we don't get bored, no kinetic and no gravitational potential energy.
potential energy
Relative acceleration' occurs when there is no increase in momentum (no transfer of energy takes place) and when the increase in density occurs only because an object is descending into a denser 'space' in the energy field, resulting in a relative size contraction which creates increased density and a corresponding relativistic increase in the measure of how 'energetic' that energy system has become. The acceleration that occurs and the relative increase in velocity are the results of momentum remaining constant as the spatial gradient of the energy field changes, such that as the clock slows down a relative acceleration occurs.
I think it is
The particle motion in shear waves relative to the energy of the wave is downward.
Relative charge. (And/or relative voltage.)
banannas
Potential Energy
Potential energy refers to the energy possessed by a given object relative to its position.
Zero. You need to think in terms of "frame of reference" as in what are you comparing the rock to. If you are an observer sitting next to the rock then the kinetic energy of the rock RELATIVE TO YOU is zero - I.E. the rock isn't moving relative to you and thus has no kinetic energy - energy of motion - relative to you. If you are an observer sitting a million miles from earth watching the rock then it is zipping around at 1000 miles per hour as the earth spins on its axis and it has significant kinetic energy RELATIVE TO YOU. You need to think in terms of "frame of reference" as in what are you comparing the rock to. If you are an observer sitting next to the rock then the kinetic energy of the rock RELATIVE TO YOU is zero - i.e. the rock isn't moving relative to you and thus has no kinetic energy - energy of motion - relative to you. If you are an observer sitting a million miles from earth watching the rock then it is zipping around at 1000 miles per hour as the earth spins on its axis and it has significant kinetic energy RELATIVE TO YOU. ---- So we don't get bored, no kinetic and no gravitational potential energy.
potential energy
2s1
potential energy
It contains kinetic energy mainly. Potential energy is relative to its position
Energy pyramids show relative amounts of energy which reaches from one tropic level to other.