0-1
-10-
-20-
-30-
-40-
-50-
pH Variation
∖ Freeze Thaw
• Freeze-Thaw (n=5)
N No Treatment (n=6)
■ Thermal Flask (n=2)
-60
0 10 20 30 40 50 60 70
Time (Minute)
17
Figure3: pH variations under remote manipulations of water quantum-
entangled with water being measured. The pH value at the starting point is set
to zero and the results shown were obtained from one batch of quantum-
entangled water. 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 was kept in a thermal flask to prevent energy exchange with
the local environment, no effect on pH value was observed during freeze-thaw
treatment of remote water. Statistical analysis on data collected after freezing
for 10 minutes show that the results are significantly different under the different
treatments/settings shown.
More intriguing information
1. The name is absent2. A Multimodal Framework for Computer Mediated Learning: The Reshaping of Curriculum Knowledge and Learning
3. The name is absent
4. Cross-Country Evidence on the Link between the Level of Infrastructure and Capital Inflows
5. The name is absent
6. Comparative study of hatching rates of African catfish (Clarias gariepinus Burchell 1822) eggs on different substrates
7. Target Acquisition in Multiscale Electronic Worlds
8. The name is absent
9. Asymmetric transfer of the dynamic motion aftereffect between first- and second-order cues and among different second-order cues
10. Banking Supervision in Integrated Financial Markets: Implications for the EU