Entaglement! The reality of a 'thing' being here there and everywhere at the same time!

Quantum entanglement occurs when particles such as photons, electrons, molecules interact physically and then become separated; the type of interaction is such that each resulting member of a pair is properly described by the same quantum mechanical description (state), which is indefinite in terms of important factors such as position^, momentum, spin, polarization, etc


According to the Copenhagen interpretation of quantum mechanics, their shared state is indefinite until measured.^[ Quantum entanglement is a form of quantum superposition. When a measurement is made and it causes one member of such a pair to take on a definite value (e.g., clockwise spin), the other member of this entangled pair will at any subsequent time.^] be found to have taken the appropriately correlated value (e.g., counterclockwise spin). Thus, there is a correlation between the results of measurements performed on entangled pairs, and this correlation is observed even though the entangled pair may have been separated by arbitrarily large distances.