Experiments with the above first-setup were carried out as follows: (1) prepare the
500ml quantum-entangled stock water, divide the same into 175ml, 75ml and 250ml
portions and put them into their respective reservoirs described above; (2) set up the
experiment according to Figure 1 and let the instruments to stabilize for 30min before
any measurements is taken; (3) record for 20min minute-by-minute changes of pH value
and temperature of the water in the first-reservoir and weight of the second-reservoir
with water before submerging the third reservoir into liquid nitrogen; (4) submerge the
third-reservoir with water into liquid nitrogen for 15min or another desired length of
time and record the instrument readings as before; and (5) take the third-reservoir out of
liquid nitrogen, thaw the same in warm water for 30min or longer and, at the same time,
record the instrument readings as before. Control experiments were carried out in same
steps with nothing done to the water in the third-reservoir.
In one variation of the above setup, the closed plastic third-reservoir was replaced
with a metal container and instead of freeze-thaw treatment the water in the metal
container was quickly heated to boiling within 4-5 minutes and then cooled in cold
water. In a second variation of the above setup, the gravity portion of the experiment
was eliminated and the water in the first and second reservoirs was combined into a
closed thermal flask which prevents heat exchange between the water being measured
and its local environment. In a third variation of the above setup, the gravity portion of
the experiment was eliminated and the water in the first and second reservoirs was
combined into a fourth plastic container in which 5ml concentrated HCl (30% by
weight) was first added, then 20g NaOH powder was added and next the same water
was transferred to a metal container and heated to boiling on a stove. In a fourth
variation of the above first-setup, the 25-litre Dewar containing liquid nitrogen was
replaced by a large water tank located 20-feet above the underground room which
contained 200-gallon tap water sitting in room temperature for months and, instead of
submersion, the water in the third-reservoir was poured into the large water tank the