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Summary (11/25/2006)

What we have done are the following:

1. We have found that the pH value of water in a detecting reservoir quantum-entangled with waterin a remote reservoir changes in the same direction as that in the remote water when the latter is

manipulated under the condition that the water in the detecting reservoir is able to exchange energywith its local environment.

2. We have also found that the temperature of water in a detecting reservoir quantum-entangled withwater in a remote reservoir can change against the temperature of its local environment when thelatter is manipulated under the condition that the water in the detecting reservoir is able to exchangeenergy with its local environment.

3. We have further found that the gravity of water in a detecting reservoir quantum-entangled withwater in a remote reservoir can change against the gravity of its local environment when the latterwas remotely manipulated such that, it is hereby predicted, the gravitational energy/potential is

globally conserved.

4. Thus, among other things we have realized non-local signaling using three different physicalobservables - pH value, temperature and gravity.

Perhaps the most shocking is our experimental demonstration of Newton's instantaneous gravity andMach's instantaneous connection conjecture and the relationship between gravity and quantumentanglement. Our findings also imply that the properties of all matters can be affected non-locallythrough quantum entanglement mediated processes. Second, the second law of thermodynamics maynot hold when two quantum-entangled systems together with their respective local environments areconsidered as two isolated systems and one of them is manipulated. Third, gravity has a non-localaspect associated with quantum entanglement thus can be non-locally manipulated through quantumentanglement mediated processes. Fourth, in quantum-entangled systems such as biological systems,quantum information may drive such systems to a more ordered state against the disorderly effect of environmental heat.

On a more fundamental level, our findings shed new lights on the nature and characteristics of quantum entanglement and gravity, reveal the true conflict between quantum theory and Einstein’stheories of relativity, provide vital clues for resolution of the measurement problem in quantummechanics, and support non-local hidden variable based theories such as Bohmian mechanics and anon-local cosmology.

With respect to applications, our findings enable various quantum entanglement assistedtechnologies be developed. Some of these technologies can be used to manipulate and/or affectremotely various physical, chemical and/or biological systems including human bodies. Other suchtechnologies can be used for non-local signaling and communications between remote locations of arbitrary distances in various ways. Potentially, some of these technologies can also be used toengineer the gravitational properties of physical matters and develop new types of space vehicles.

Finally, as with many other experimental findings, independent replications are the key to verify ourresults. Therefore, we urge all interested scientists and the like to do their own experiments to verifyand extend our findings.

Huping Hu, Ph.D., J.D.Chief Scientist and Legal CounselBiophysics Consulting Group25 Lubber Street

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Stony Brook, NY 11790 (USA)Phone: (718) 358-2085Fax: (718) 358-2086E-Mail: hupinghu@quantumbrain.org

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