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Quantum entanglement cannot be used to transport energy from one place to another. While entangled particles exhibit a strong correlation that allows for instantaneous changes in one particle to be reflected in the other, this correlation cannot convey energy or information faster than the speed of light. Transporting energy still requires physical processes and mechanisms.
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Could we theoretically use quantum entanglement to transport solar energy from a moon based solar farm to Earth?
Quantum entanglement "does not exist" !!! If / when Hydrogen reaches singularity, the strong & weak nuclear forces are no longer required ! The only forces to remain are the Gravitational & the Electromagnetic !!!
What is involved in Quantum Entanglement?
transition of a charged particle between energy levels.
What could be the fourth quantum for one of the electrons in the 4p energy sublevel of bromine?
ms -1/2
What could be the fourth quantum number for on of the electrons in the 4p energy sublevel of bromine?
ms -1/2
What is the significance of zero point energy in quantum mechanics?
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.
Could we theoretically use quantum entanglement to transport solar energy from a moon based solar farm to Earth?
Quantum entanglement "does not exist" !!! If / when Hydrogen reaches singularity, the strong & weak nuclear forces are no longer required ! The only forces to remain are the Gravitational & the Electromagnetic !!!
What is involved in Quantum Entanglement?
transition of a charged particle between energy levels.
What do light waves do?
Light waves have electromagnetic energy. Could be considered as quantum of energy with an expression E = h v. v is the frequency of light wave. h - Planck's constant. E - the energy possessed by the quantum. This quantum is also known as photon
What do light wave do?
Light waves have electromagnetic energy. Could be considered as quantum of energy with an expression E = h v. v is the frequency of light wave. h - Planck's constant. E - the energy possessed by the quantum. This quantum is also known as photon
What could be the fourth quantum number for one of the electrons in the 4p energy sublevel of bromine?
ms -1/2
What could be the fourth quantum for one of the electrons in the 4p energy sublevel of bromine?
ms -1/2
What could be the fourth quantum number for on of the electrons in the 4p energy sublevel of bromine?
ms -1/2
What could the third quantum number for one of the electrons in the 4p energy sublevel of bromine?
M1 = -1
What is the significance of zero point energy in quantum mechanics?
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.
Which set of quantum numbers could correspond to one of the highest energy electrons in Zr?
The highest energy electron in Zirconium (Zr) corresponds to the 4th energy level (n=4) with an angular momentum quantum number of l=3 (d-orbital), a magnetic quantum number ml ranging from -3 to 3, and a spin quantum number of ms=+1/2. This set of quantum numbers specifies the 4d subshell in which the electron resides.
What could be the fourth quantum number for one of the electrons on the 4p energy sublevel of bromine?
ms=-1/2
What could be the third quantum number for one of the electrons in the 4p energy sublevel of bromine?
M1 = -1
