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We chose to use liquid nitrogen in a large Dewar placed at a distant location for
manipulating water in our experiments because it can provide drastic changes in
temperature and properties of water in a very short period of time. Our expectation was
that, if the quantum entities inside the water being measured are able to sense the
changes experienced by the quantum entities in the water being manipulated through
quantum entanglement and further utilize the information associated with the said
changes, the chemical, thermal and gravitational properties of the water might be
affected through quantum entanglement mediated non-local processes4, 5. The most
logical explanation for these observed non-local effects is that they are the
consequences of non-local processes mediated by quantum entanglement between
quantum entities in the water being measured and the remote water being manipulated
as more specifically illustrated below.
First, when pH value of the water in the manipulation reservoir is high or low or is
changing under direct manipulation such as extreme cooling or heating or addition of
acidic or alkaline chemical, the measured pH in the detecting reservoir shifts in the
same direction under the non-local influence of the water in the manipulation reservoir
mediated through quantum entanglement and, under the condition that the detecting
reserve is able to exchange energy with its local environment, as if H+ in the latter is
directly available to water in the detecting reservoir.
Second, when the temperature in the manipulation reservoir is extremely low or
high or is changing under direct manipulation such as extreme cooling or heating or
addition of heat-generating and/or property-changing chemical such as concentrated
HCl or NaOH powder, the temperature in the detecting reservoir changes in the same
direction under non-local influence of the water in the manipulation reservoir mediated
through quantum entanglement and, under the condition that the detecting reserve is
able to exchange heat with its local environment so that the local thermodynamic energy