recently observed non-local effects of chemical substances on the brain produced
through quantum entanglement4, 5 which are commonly thought to be impossible. Here
we report our work carried out on simple physical systems, in particular, water, using
simple physical/chemical observables such as pH, temperature and gravity measured
with high-precision instruments. Our motivation for measuring pH change of water in
one reservoir, while manipulating water in a remote reservoir quantum-entangled with
the former, is to investigate whether and how pH value in the water being measured
shifts under non-local influences. Our motivation for measuring temperature variation
of water in one reservoir, while manipulating water in a remote reservoir quantum-
entangled with the former, is to investigate whether and how the thermodynamics of
water being measured changes under non-local influences. Our motivation for
measuring gravity change of one reservoir of water, while manipulating water in a
remote reservoir quantum-entangled with the former, is to investigate whether gravity is
a non-local effect associated with quantum entanglement.
The successes of the experiments described herein were achieved with the aids of
high-precision analytical instruments. They include an Ohaus Voyager Analytical
Balance with capacity 210g, resolution 0.1mg, repeatability 0.1mg and sensitivity drift 3
PPM∕°C, a Control Company traceable-calibration digital thermometer with resolution
0.001°C and repeatability 0.002°C near 25°C in liquid such as water (estimated from
calibration data provided), and a Hanna microprocessor pH meter Model 213 with
resolution 0.001 and repeatability 0.002. The other key apparatus is a 25-litre Dewar
filled with liquid nitrogen and positioned remotely at a desired distance which not only
provided the drastic changes in the water being manipulated but also served as a natural
Faraday cage blocking any possible electromagnetic influence between the water being
measured and the water being manipulated. Also vital to the success of the experiments
described herein was the stable environment found in an underground room which
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