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AnswerZero-point energy (not to be confused with Vacuum Energy) is the lowest possible energy that a quantum mechanical physical system may have and is the energy of the ground state. This energy comes from the fact that after you remove all thermal and kinetic energy from an atom there is still quantum mechanical harmonic vibration that arises due to the Heisenberg Uncertainty Principle. This energy, so far, can not be taken away from a system.
Yes - mechanical energy includes both gravitational potential energy, and kinetic energy. If an object's momentum is zero, then its kinetic energy will also be zero, but its potential energy can be positive or negative, depending on whether the object is above or below the chosen reference level.
I guess you mean, no more thermal energy (heat). That's the lowest possible temperature, called "absolute zero", or zero Kelvin.
Absolute zero. On the Kelvin scale of heat measurement, 0K is the point at which no more energy can be removed or −273.15°C / −459.67°F. There is not enough energy there at 0K to transfer any movement from the substance to another substance.
Anyone can define a zero of potential energy, from which they are going to measure any other energy elsewhere. Like height, you take your zero to be the soles of your feet, or for a mountain, the sea level, or for a battery cell, one end of it. It may or not be possible to find a place in the universe where there is no lower gravitational potential. Note, usage is generally potential energy=potential x quantity (mass, charge etc).
Space-energy, also known as zero-point energy is the lowest possible energy that a quantum mechanical physical system may have and is the energy of the ground state, which is non-zero.
AnswerZero-point energy (not to be confused with Vacuum Energy) is the lowest possible energy that a quantum mechanical physical system may have and is the energy of the ground state. This energy comes from the fact that after you remove all thermal and kinetic energy from an atom there is still quantum mechanical harmonic vibration that arises due to the Heisenberg Uncertainty Principle. This energy, so far, can not be taken away from a system.
Mechanical zero is where all the sights are set to zero. Battle sight zero is after the person has properly zeroed their weapon at a 25 meter range.
no,it also cant have inertia
AnswerZero-point energy (not to be confused with Vacuum Energy) is the lowest possible energy that a quantum mechanical physical system may have and is the energy of the ground state. This energy comes from the fact that after you remove all thermal and kinetic energy from an atom there is still quantum mechanical harmonic vibration that arises due to the Heisenberg Uncertainty Principle. This energy, so far, can not be taken away from a system.
Yes - mechanical energy includes both gravitational potential energy, and kinetic energy. If an object's momentum is zero, then its kinetic energy will also be zero, but its potential energy can be positive or negative, depending on whether the object is above or below the chosen reference level.
AnswerZero-point energy (not to be confused with Vacuum Energy) is the lowest possible energy that a quantum mechanical physical system may have and is the energy of the ground state. This energy comes from the fact that after you remove all thermal and kinetic energy from an atom there is still quantum mechanical harmonic vibration that arises due to the Heisenberg Uncertainty Principle. This energy, so far, can not be taken away from a system.
Internal energy at the microscopic level and thermodynamic or mechanical energy at the macroscopic level. According to conservation of energy the sum of kinetic and potential energy is zero.
Yes. Mechanical energy is the sum of potential energy and kinetic energy; this includes gravitational potential energy.
Absolute zero is the theoretical lowest possible temperature. More formally, it is the theoretical temperature at which entropy reaches its minimum value. The laws of thermodynamics state that absolute zero cannot be reached using only thermodynamic means. A system at absolute zero still possesses quantum mechanical zero-point energy, the energy of its ground state. The kinetic energy of the ground state cannot be removed. However, in the classical interpretation, it is zero and the thermal energy of matter vanishes.
Internal energy at the microscopic level and thermodynamic or mechanical energy at the macroscopic level. According to conservation of energy the sum of kinetic and potential energy is zero.
Yes, it is appearently possible.