Physicist John Stewart Bell's mathematical theorem that when one member of a quantum pair (such as two electrons spinning in space or two persons falling in love) is interfered with in any way, its partner is also altered at exactly the same time. This is evidence of the nonlocal nature of info-energy. Bell's Theorem stands as a fundamental quantum physics principle.
A mathematical proof derived from physics demonstrating that when ever two particles interact, they are thereafter connected in a mysterious faster-than-light way that doesn't diminish with time or distance and can't be shielded. Also known as the "mechanism of non-locality."
A theorem stating that for any collection of objects with three different properties, A, B, and C, the number of objects that have property A but not property B plus the number of objects which have property B but not property C is greater than or equal to the number of objects which have property A but not property C.
John S. Bell's proof (1964) that any objective theory must include nonlocal effects: effects outside the light cone (faster than light) Thus if we reject nonlocality with its suggestion of "telepathy", we seem driven to nonobjectivity, which suggests psychokinesis or the merging of of physics and parapsychology into paraphysics. [Illuminati Papers, 1980
Bell's theorem is the most famous legacy of the late Northern Irish physicist John Bell. It is notable for showing that the predictions of quantum mechanics (QM) differ from those of intuition. It is regarded as simple and elegant, and touches upon fundamental philosophical issues that relate to modern physics.