New Nonlocal Biological Effect: A Preliminary Research

Hu, Huping and Wu, Maoxin (2012) New Nonlocal Biological Effect: A Preliminary Research. NeuroQuantology, 10 (Issue ). pp. 462-467. ISSN 1303 5150

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We report here our experimental findings of new nonlocal biological effect measured objectively and quantitatively under blind conditions. The method used includes the steps of providing two parts of quantum-entangled medium, applying one part to a biological system such as a human, contacting the other part with a desired substance such as a medication, and detecting change of a biological parameter with a detecting device. Using this method, we have found that after consumption by a test subject of one part of the quantum entangled water, the subject’s heart rate was non-locally increased under blind conditions by adding to the second part of the quantum-entangled water an over-the-counter medication Primatene which contains the heart stimulant ephedrine. The said increase of heart rate is measurable with a heart rate monitor, statistically significant and consistently reproducible.

Item Type:Article
Uncontrolled Keywords:quantum entanglement, biological non-local effect, heart rate, heart stimulant
Subjects:Q Science > Q Science (General)
R Medicine > R Medicine (General)
Q Science > QC Physics > QC01 Quantum mechanics
1. Hu, H. & Wu, M. (2006), Photon induced non-local effect of general anesthetics on the brain, Neuro- Quantology 4(1): pp. 17-31.

2. Hu, H. & Wu, M. (2006), Nonlocal effects of chemical substances on the brain produced through quantum entanglement, Progress in Physics, v3: pp. 20-26.

3. Hu, H. & Wu, M. (2006), Evidence of non-local physical, chemical and biological effects supports quantum brain, NeuroQuantology 4(4): pp. 291-306.

4. Hu, H. & Wu, M. (2007), Evidence of nonlocal chemical, thermal and gravitational effects, Progress in Physics, v2: pp. 17-21.

5. Lee, K.C. et. al. (2011), Entangling macroscopic diamonds at room temperature, Science, 334 (6060): pp. 1253-1256.

6. M. Sarovar, Ishizaki, A., Fleming, G. R. & Whaley, K. B. (2010), Quantum entanglement in photosynthetic light harvesting complexes, Nature Physics 6: pp. 462–467.

7. Persinger, M.A., Tsang, E.W., Booth, J.N., & Koren, S.A. (2008), Enhanced power within a predicted narrow band of theta activity during stimulation of another by circumcerebral weak magnetic fields after weekly spatial proximity: evidence for macroscopic entanglement? NeuroQuantology, 6(1): pp. 7-21.

8. Hu, H. & Wu, M. (2010), Prespacetime model of elementary particles, four forces & consciousness, Prespacetime Journal 1(1): pp. 77-146.

9. Hu, H. & Wu, M. (2011), Prespacetime model II: genesis of matrix law & the ontology & mathematics of ether, Prespacetime Journal 1(10): pp. 1477-1507.

ID Code:216
Deposited By: Huping Hu
Deposited On:21 Jun 2012 05:17
Last Modified:06 Feb 2021 14:41

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