Provided by Cognitive Sciences ePrint Archive
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Evidence of Non-local Chemical, Thermal and Gravitational Effects
Huping Hu& Maoxin Wu
Biophysics Consulting Group, 25 Lubber Street, Stony Brook, New York 11790, USA
Quantum entanglement is ubiquitous in the microscopic world and manifests itself
macroscopically under some circumstances1, 2. But common belief is that it alone
cannot be used to transmit information3 nor could it be used to produce
macroscopic non-local effects. Yet we have recently found evidence of non-local
effects of chemical substances on the brain produced through it4, 5. While our
reported results are under independent verifications by other groups, we report
here our experimental findings of non-local chemical, thermal and gravitational
effects in simple physical systems such as reservoirs of water quantum-entangled4
with water being manipulated in a remote reservoir. With the aids of high-
precision instruments, we have found that the pH value, temperature and gravity
of water in the detecting reservoirs can be non-locally affected through
manipulating water in the remote reservoir. In particular, the pH value changes in
the same direction as that being manipulated; the temperature can change against
that of local environment; and the gravity can change against local gravity. These
non-local effects are all reproducible and can be used for non-local signalling and
many other purposes. We suggest that they are mediated by quantum
entanglement between nuclear and/or electron spins in treated water and discuss
the profound implications of these results.
Scientific methods require that one conform one’s knowledge of nature to
repeatable observations. Thus, it is unscientific to reject what’s observed repeatedly and
consistently. With this in mind, we comment that quantum entanglement has been
recently shown to be physically real in many laboratories1, 2. Indeed, spins of electrons,
photons and nuclei have now been successfully entangled in various ways for the
purposes of quantum computation and communication6, 7. On the other hand, we have