obtained with water prepared according to other quantum entanglement methods
mentioned above and other quantum-entangled liquid such as olive oil, alcohol and even
Coke Cola as discussed later. The different distances of the Dewar from the
underground room where most measurements were done made no noticeable differences
with respect to the results obtained.
Figure 3 shows changes of pH value of the water in the second-reservoir during
the three stages of manipulations of the water in the remote third-reservoir. As shown,
within minutes after the remote third-reservoir was submerged into liquid nitrogen,
during which the temperature of water being manipulated would drop from about 25°C
to -193 °C, the pH value of the water in the second reservoir steadily stopped dropping
and then started rising, but about 20 minutes after the frozen water was taken out of
liquid nitrogen and thawed in warm water the pH value of the same steadily levelled off
and started dropping again. In contrast, the control experiments did not show such
dynamics. It is known that the pH value of water increases as its temperature goes down
to 0°C. Therefore, the pH value of water being measured goes in the same direction as
the remote water when the latter is manipulated. The difference in pH values from
control in which no freeze-thaw was done at the point of thawing is about 0.010.
However, if the water being measured is kept in a thermal flask to prevent heat
exchange with the local environment, no effect on pH value was observed under freeze-
thaw treatment of the remote water. Statistical analysis performed on data collected
after freezing for 10 minutes show that the results are significantly different under these
different treatments/settings.
Figure 4 shows temperature variations of the water in the second-reservoir during
the three stages of manipulations of the water in the remote third-reservoir. As shown,
before the submersion of the remote third-reservoir into liquid nitrogen the temperature
of the water in the second-reservoir rose in small increments due to, by design, the