shields many external noises such as mechanical vibration, air turbulence and large
temperature change.
Quantum-entangled stock water in individual volumes of 500ml or similar
quantities was prepared as described previously4 which might then be split into smaller
volumes or combined into larger ones based on needs. Briefly, in one procedure 500ml
fresh tap water in a closed plastic reservoir was exposed to microwave radiation in a
1500W microwave oven for 2min and then left in room temperature for 24 hours before
use. In a second procedure 500ml fresh tap water in the closed plastic reservoir was
exposed to audio-frequency radiations of a 20W magnetic coil for 30min and then left in
room temperature for 24 hours before use. In a third procedure, 500ml bottled natural
water was simply left in room temperature for at least 30 days before use. In a fourth
procedure, 500ml bottled distilled water was simply left in room temperature for at least
30 days before use. It was found previously that the stock water prepared according to
these procedures is quantum-entangled4.
Figure 1 shows a diagram of the key experimental setup. It includes (1) the
analytical balance calibrated internally and stabilized in the underground room for more
than one week before use and a tightly closed plastic first-reservoir containing 175ml
water split from the 500ml stock water which is placed on the wind-shielded pan of the
balance with 1-inch white foam in between as insulation; (2) the digital thermometer
and calibrated pH meter placed into the middle of a glass second-reservoir containing
75ml water split from the 500ml stock water which is closed to prevent air exchange;
and (3) the 25-litre Dewar containing 15-25 litres of liquid nitrogen which is located at a
distant of 50 feet from the underground room and a tightly closed plastic third-reservoir
containing 250ml water split from the 500ml stock water to be submerged into the liquid
nitrogen in the Dewar at a specified time.