199 lines
8.7 KiB
Plaintext
199 lines
8.7 KiB
Plaintext
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(word processor parameters LM=8, RM=75, TM=2, BM=2)
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Taken from KeelyNet BBS (214) 324-3501
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Sponsored by Vangard Sciences
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PO BOX 1031
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Mesquite, TX 75150
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There are ABSOLUTELY NO RESTRICTIONS
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on duplicating, publishing or distributing the
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files on KeelyNet except where noted!
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October 18, 1992
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NEMES1.ASC
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This file shared with KeelyNet courtesy of Cal Newman.
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Article from
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Science and Mechanics
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January 1964
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First Photos of the Atom!
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by David Legerman
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A revolutionary new scientific instrument has been invented that
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penetrates to the heart of matter, the atom, and photographs it in
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color!
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The incredible microscope is called the Nemescope, and it is the
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culmination of years of research by Dr. Elmer P. Nemes, a 44-
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year-old Hungarian-born physician presently living in Beverly
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Hills, Calif. Prior to the development of the Nemescope, the most
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powerful magnifying instrument known to science was the electron
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microscope. But this has several drawbacks, not the least of which
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is that it produces black-and-white or grey shadow photos with very
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little internal structure shown.
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The electron microscope has an effective magnification of about
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60,000X which can be further magnified photographically. However,
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there is no penetration of the structure of the examined material;
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nothing can be seen inside the surface. The Nemescope, which uses a
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ray of much shorter length than the electron, possibly below even
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the neutron range, gives beautiful penetration and resolution of
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internal structure.
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The new microscope costs a fraction of the electron microscope and
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requires specimen preparation no more complicated than that required
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by a simple optical microscope. In addition to producing photographs
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of sub-atomic structure in color, the Nemescope can also project the
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image on a screen or reproduce it via television.
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The secret of the Nemescope begins with the theory that if you can
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cause radiation of any substance, it will emit an image that can be
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converted to light, magnified, and photographed in color
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corresponding to its spectrum characteristics. Any solid, liquid, or
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gas could be excited by radioactivity in this manner and would
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respond by emitting at its own resonant frequency an image in true
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color, form, and spectrum.
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Page 1
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Working on this theory, Dr. Nemes constructed his first model, a
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tank-like case shielded with lead that was a maze of knobs, wires,
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pipes, and cables. At first all controls were hand-manipulated, but
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the Nemescope is now ready for electrically driven controls with
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motors that have recorded movement intervals of 1/75,000th of an
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inch.
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A full explanation of how this remarkable instrument works would
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take many pages (it includes more than 20 original patents) but here
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is a brief outline:
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1. The first unit is a cold cathode lamp with multiple
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units separately charged. The filaments are preheated by
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an input of 18 volts amplified to 608 volts at the emitting
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end. This cathode gun acts as the primary source of
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illumination and bombarder of the specimen to be examined.
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2. The second unit is a condenser under vacuum with
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molecular nitrogen injected. In the condenser circuit are
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placed two radium guns each yielding 5,400,000 electron
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volts. The condenser includes a coil which carries by
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interchangeable switch from 240 megacycles to 35,000
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megacycles in magnitron arrangement which hits the
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specimen to agitate or excite the molecular structure.
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3. The resulting stream of energy is converted into light in
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the front orthicon tube, actually consisting of two tubes
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which pick up resonant frequencies in the high ranges.
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After amplification, the imaging orthicon emits a
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picture on the screen in color corresponding to the
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nature of the substance under examination.
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Results obtained with the Nemescope have been no less than
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astounding. In 1955, working with patients in the hospitals of
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Mexico City, Dr. Nemes succeeded in making pictures of cells from
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the blood and urine of cancer patients which established a
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relationship between human cancer and a virus.
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In 1957, enzyme battery research started by Dr. Nemes resulted in
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another breakthrough when for the first time enzymes were resolved
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under a microscope. Through the Nemescope enzymes can be classified
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and identified. When we realize that enzymes are the chemical
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catalysts of living matter and that viruses share with bacteria the
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responsibility for most infectious diseases, a microscope that will
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enable man to study more closely these ultra-microscopic substances
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is indeed a boon to mankind.
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Another exciting discovery made by the Nemescope is in the field of
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metallurgy. Behavior of metallic alloys under bombardment by the
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Nemescope has indicated that the present makeup of widely used
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alloys must be revised and new techniques developed to insure more
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stable bonding elements. Where the electron microscope showed
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perfect molecular alignment, the Nemescope photos showed fault lines
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and distinct weaknesses among bonding elements.
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Metal failure of hull welds or pipe welds may have been the cause of
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the sinking of the "Thresher". It's obvious that a closer look at
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the behavior of metals in the atomic or molecular regions must be
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made. The Nemescope, with its great magnifying and resolving powers,
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Page 2
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will probably furnish the answers to these questions, as well as the
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answers to how materials behave when exposed to vacuum, ions and
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electrons, and the electromagnetic radiation known to exist in outer
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space.
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Nemescope photos of the structure of the atomic nucleus are
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beautiful in their resolution. Perhaps the most surprising and
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exciting sight is how the atomic particles are connected by "force
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lines" or bands of energy. Nemescope photos of sub-atomic structure
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have an amazing similarity to Rutherford models of the atom--those
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three-dimensional models of vari-colored balls held together with
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pencil-thin rods. Leukemia particles and the common cold virus, when
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photographed by the Nemescope in full color, have a precision in
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structure that can, perhaps, be appreciated only by a research
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scientist or laboratory technician.
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--------------------------------------------------------------------
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If you have comments or other information relating to such topics
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as this paper covers, please upload to KeelyNet or send to the
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Vangard Sciences address as listed on the first page.
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Thank you for your consideration, interest and support.
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Jerry W. Decker.........Ron Barker...........Chuck Henderson
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Vangard Sciences/KeelyNet
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If we can be of service, you may contact
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Jerry at (214) 324-8741 or Ron at (214) 242-9346
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Page 3
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