Quantum entanglement is a property of a quantum mechanical state of a system of two or more objects in which the quantum states of the constituting objects are linked together so that one object can no longer be adequately described without full mention of its counterpart—even if the individual objects are spatially separated in a spacelike manner.
When two members of an entangled pair are measured, their spin measurement results will be correlated. Two (out of infinitely many) possibilities are that the spins will be found to always have opposite spins (in the spin-anti-correlated case), or that they will always have the same spin (in the spin-correlated case). Measuring one member of the pair therefore tells you what spin the other member would have if it were also measured. The distance between the two particles is irrelevant.
When pairs of particles are generated by the decay of other particles, naturally or through induced collision, these pairs may be termed "entangled," in that such pairs often necessarily have linked and opposite qualities such as spin or charge.
If we Entangle many particles and put half of them on Earth and the other half in space. Collection of the Sun's energy is unaffected by the day/night cycle, weather, seasons, or the filtering effect of Earth's atmospheric gases in space.
If Entangled pairs in space are effected by Sun rays , their other half "Entangled " pairs which will be on Earth will also get affected i,e their quantum state will be affected.
By this method we can transmit energy back to Earth and like phone and TV signals we can send energy to different end uses on the run.
We can have half of the "Entangled" pairs in space and other half in cars, trains, industries.
We need to build big space stations to place the entangled pairs in space and expose them to solar energy .
ABOUT THE ENTRANT
Name: Hemanth Kumar Jagdev
Type of entry: team
Patent status: none