Scalar Beam Device

Here's a suggestion for "scalar" experiments from a conversation with
John Bedini. Mr. Bedini encourages everyone to try this experiment, but
warns us that this device is patent applied for, so you should only build
a single unit for your own use.






      |\        \

      |  \        \

      |\   \        \

      |  \   \ _______\ S

       \   \  |       |      Obtain two Radio Shack ceramic magnets and

         \   \|_______| N    glue their north pole faces together.

           \  |       | N




            _______          Wind the magnets with about 50 turns

          |\   \\\  \        of #30 magnet wire.  Wire gauge is not

          |  \  \\\\  \      critical.

          |\   \  \\\\  \

          |  \   \ _\\\\__\

           \   \  |  |||| |

             \   \|__||||_|

               \  |  |||| |


                     \  |      ________

                     |  |     [ small, ]

                     |   -----[ noisy  ]----------o

                     |        [_motor__]           6v to 12v power supply



The brush noise from the DC motor provides a pulse signal to the coil,

which modulates the 'colliding' field pattern of the magnets and creates

interesting scalar effects within a narrow pencil-beam pattern which extends

from each face of the magnet out to a few inches. 


          |\   \\\  \

          |  \  \\\\  \

          |\   \  \\\\  \

  <<<<<<<<<<<\   \ _\\\\__\>>>>>>>>>>>>>>>>>>>> scalar effect comes from the

  <<<<<<<<<<<<<\  |  |||| |>>>>>>>>>>>>>>>>>>>>> joint between magnet faces

             \   \|__||||_|

               \  |  |||| |


                     \  |

                     |  |

                     |  |

                     |  |

Mr. Bedini suggests these experiments:

    Purchase two identical music CDs.  Listen to both to verify that

    they are identical.  Now let the "scalar beam" play all over the

    surface of one of the CDs for about one minute.  You may want

    to build a simple rotating platform to make this process more

    convenient.  Now play the two CDs and compare them again.  Hear

    any difference?   (Note, this process is patent pending, so do not 

    use it for any other purpose except to demonstrate the reality

    of the effect)

    Connect a small probe-coil to an oscilloscope, then move it around

    in the beam and observe the waveforms.

    Taste some wine, then put it in a small airtight container and

    place it against the magnet face for a few (minutes? hours?)

    Taste it again.  Improvements?   Try it with and without the

    power supply connected to verify that any changes are caused by

    the scalar beam and by just the magnetic field.

FROM BILLB@ESKIMO.COM:  Some tests I intend to try (but as yet have not!):

  Place various foodstuffs in the beam then compare flavor with untreated 


  Grow two collections of plants, water one with normal water, water the

  other with water that's been treated by several minutes??hours?? 

  exposure to the beam.  As a control, use water which was held nearby

  identical magnets but without the coil.

  Aim the beam directly at a plant for many days, compare it with another

  untreated plant as a control.  (Shield the magnet, or place a similar

  magnet-block near the control plant.)

  Sprout two groups of seeds, one treated and one untreated, and look for

  differences in number, health, growth rate, etc., between the two groups.

  Measure the growth of the tip of a plant stem by using a tiny lever, 

  mirror, and laser beam.  Graph the growth rate, then treat the plant with 

  the scalar beam and look for changes in the growth rate.  (Note that

  this method can also be used to observe plants' realtime response to

  numerous stimuli both conventional and "weird."  Fertilizer? Light?

  Music? Magnetism? Pyramids? Good/Bad thoughts?)

  Observe microscopic lifeforms in pond water, then expose them to the beam

  and see if their behavior changes while it is operating.  Or, expose the

  water to the beam for several minutes??hours??, then compare the 

  number and activity of lifeforms in the water with an untreated bottle.  

  Or, compare the effects of adding treated or untreated water to the 

  slide under the microscope.

  Use an opamp buffer and an audio amplifier to listen to the noise output 

  of a capacitor which is shielded in a thick copper box, (or does a 

  resistor or transistor work better?) then aim the beam at the box and 

  listen for signals, or monitor changes to component values.  See:

  http://www.amasci.com/freenrg/grav3.txt, Hodowanec's capacitor-based

  gravity detector, for more info.