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    Dr. Shui Yin Lo, physicist

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     Dr. Lo Speaking about Water Clusters
    Physicist, Dr. Shui Yin Lo is a professor,
    researcher, author, humanitarian and
    an inventor with numerous patents.

    His mission is to reach out to scientists, medical doctors, complementary health practioners and  others, urging them to explore the science of how the body heals and maintains health at the subatomic level. He believes that what we discover together, could reduce the growing cost of health care, while improving the quality of that care.

    Einstein's photo

    Einstein Said, "Science is the attempt to make the chaotic diversity of experience correspond to a logical uniform system of thought."

    There are thousands of practioners and millions of people experiencing effects that has lead them to believe that qi (universal energy) exists and that it can be used for healing and to maintain health. 

    There are others who believe that this universal energy has not yet been proven to exist and conclude, therefore, that it is not a legitimate subject for scientific investigation. 

    But minute particles, detected and undetected,
    are exactly the subjects of inquiry for quantum physicists.

    A major emphasis of Dr. Lo's s health research has been in the area of stable water clusters.  He cultivated his theory through mathematical calculations and deductive reasoning, as physicists often do. 

    We present this information inductively, starting with the results of his experiments and moving towards his hypothesis of how stable water clusters could positively influence health and how it might relate to the subjects of qi and meridians.  We believe that you will be fascinated with the results and hope you will join with us on our search for Quantum Health. But before discussing Dr. Lo's research lets look at some other research on water. 

    Physics, Water, Health
    a call for a collaborative approach

    boy drinking from fountain

    Water is polar liquid that slightly dissociates disproportionately into the
    hydronium ion (H3O+(aq)) and an associated hydroxide ion (OH−(aq)).
    2 H2O (l) is in equilibrium withH3O+ (aq) + OH− (aq)

    The dissociation constant for this dissociation is commonly
    symbolized as Kw and has a value of about 10−14 at 25°C

    Water, we drink it, brush our teeth with it, cook with it, wash with it, we make power with it, we play in it, we use it to drill things, to dissolve things and we move things in it.  It is so much of our daily life you would think that we would know everything there is to know about water. But we are learning new things daily.

    Summary of some modern research on water at the atomic level

     Almost everyone knows that  water (H2O) is made up of two hydrogen atoms and 1 oxygen atom bonded together. But new research in biochemistry is challenging this forum la.  

    American Institute of Physic is reports a water molecule's chemical formula is really not H2O, at least from the perspective of neutrons and electrons interacting with the molecule for only attoseconds (1 attosecond=10-18 seconds).

    "According to new and recent experiments, neutrons and electrons colliding with water for just attoseconds will see a ratio of hydrogen to oxygen of roughly 1.5 to 1, so a more accurate formula for water under these circumstances would be H1.5O. According to the experimenters (Aris Chatzidimitriou-Dreismann.)

    And we all know that water assumes three forms: ice, liquid, steam.
    But modern research is pointing to a fourth state.  See below.

    And they are throwing in at least 1 more form that H20 might taking than the traditional ice, steam, water.  And this is a form which oscillates between a liquid and vapor state, condensing and then evaporating. Research by Mark Sansom and Oliver Beckstein, Department of Biochemistry.

    Robert Bukowski, Krzysztof Szalewicz, Gerrit C. Groenenboom, and Ad van der Avoird - Predictions of the Properties of Water from First Principles - Science 2 March 2007: Vol. 315. no. 5816, pp. 1249 - 1252; DOI: 10.1126/science.1136371

    Ken Jordan, chair of the Department of Chemistry of the University of Pittsburg is studying the structure of water. He and colleagues from Yale University and the University of Georgia conducted a study on what happens to water clusters when a proton is added. This research established that the proton attaches to the surface of the cluster, a finding that has ramifications for environmental chemistry and possibly biological systems. University of Pittsburg

    "For a long time, most researchers agreed that, in its liquid state, each water molecule coordinates on average with four other water molecules by forming hydrogen bonds," Szalewicz said. "However, a 2004 paper in Science claimed that this coordination takes place with only two molecules, a discovery that, if correct, would turn over the whole water paradigm."

    2 water molecules image

    Krzysztof Szalewicz
    the ambiguities about the structure of liquid water may be resolved if the structure is predicted directly from the laws of physics."

    University of Delaware


    water clusters image

    Large protonated water clusters turned out to be cage structures similar to those found in gas hydrates (see graphic). Size-selected water clusters could be probed by infrared spectroscopy. The assignment is supported by quantum mechanical calculations.

    Correspondence to Ralf Ludwig, Universität Rostock, Fachbereich Chemie, Abt. Physikalische Chemie, Dr.-Lorenz-Weg 1, 18051 Rostock, Germany, Fax: (+49) 381-498 6524

    Résumé / Abstract
    The role of water in chemical, biochemical and cellular events has only been recognized as a universal solvent. The conventional wisdom holds that water is a passive agent in biological interaction. However, more and more researchers regard water as an active component in biochemical reactions and hence occupy a crucial role in life. We propose that the active component of water is due to the existence of stable water clusters in aqueous solutions. Our research demonstrated that stable water clusters could be produced in very dilute inorganic and organic water solutions, and also isolated from biological fluids such as bovine serum. Stable water clusters may play an important role in physiological and pathological processes of life.

    Auteur(s) / Author(s)
    LO S. Y. (1) ; LI W. C. (1) ; HUANG S. H. (2) ;
    Affiliation(s) du ou des auteurs / Author(s) Affiliation(s)
    (1) R & D Department, American Technologies Group, Inc., Monrovia, California, ETATS-UNIS
    (2) Division of Infectious Diseases, Children's Hospital Los Angeles, Department of Pediatrics, University of Southern California School of Medicine, Los Angeles, California, ETATS-UNIS
    Revue / Journal Title
    Medical hypotheses   ISSN 0306-9877 
    Source / Source
    2000, vol. 54, no6, pp. 948-953 (29 ref.)


    Interesting research on water cluster by Low Resonant Frequency Storage and Transfer
    in Structured Water Cluster

    Jingong Pan, Kang-Nian Zhu*, Mengchu Zhou, Zhi Y. Wang,
    Center for Bio-signaling and System Research
    Department of Electrical and Computer Engineering
    New Jersey Institute of Technology, Newark, NJ 07102, USA
    *China Health Care Association, Beijing, China

    Faraday Discussion 141 was organised by the Faraday Division with the aim of achieving a unification views towards the goal of understanding the microscopic structure and behavior of condensed phases of water at interfaces and progressing into the bulk.
    The meeting aimed to bring together experimental and theoretical scientists from diverse disciplines that traditionally do not interact; the gas phase clusters community, the surface science community and the condensed (liquid) phase community. RSC Advancing the Chemical Sciences

    Proceedings of the national Academy of Sciences of the United States of America, 2006, September 14  First-principles, quantum-mechanical simulations of electron solvation by a water cluster, John M. Herbert and Martin Head-Gorndon, Department of Chemistry, University of California, Berkeley, CA 94720 http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1599955/




    The above references of contemporary research of water at the subatomic level, demonstrating the need for many other researchers to look into the area of water and stable water cluster.  It is also meant to kind of respond to the rather strange couple of web sites and Wikipedia writers who, for some reason, want people to believe that water research is not the subject for legitimate scientists. 


    Physical Chemistry, Chemical Physics Journal 2008 writes,

    "Water remains an exciting challenge for the experimentalist too. Important information on potential-energy surfaces has recently come from the production of kinetically (as opposed to thermodynamically) stable water clusters within superfluid helium droplets, the spectroscopy of hetero-clusters containing water, and the study of molecular collisions, including orientationally aligned molecules. Studies of clusters and ultrathin films on surfaces are leading us to revise our views of the electrochemical interface and to a greater understanding of the structure and phase behaviour of water. Neutron-scattering developments are giving new insight into details of structure in both pure water and complex solutions, especially those of biological importance. Surface-specific spectroscopies and scanning probe techniques are revolutionising our microscopic understanding of the interfaces water presents to the gas phase, to solid surfaces and to immiscible liquids." Physical Chemistry chemical Physics Journal 2008

    For the last ten years, physicists, Dr. Lo's has focused his attention on water at the subatomic level.  His experiments have given a strong indication that 2 waters, which may appear the same and maybe chemically the same, may be different structurally.  He hopes that researchers around the globe will join him in his research




    As mentioned before we are going start with a description and results of Dr. Lo's experiments with
    stable water cluster and then move to a theory.

    continue on page 2


    Dr. Shui Yin Lo ©2009