Watch the Video

Cable/DSL Video

56K/Dialup Video


How It Works
The EB 305 is designed to restore the body's energy...(more)
Neuro Muscular Trial
On the weekend of September 20 - 21, 2003 at...(more)
EPA Lab Tests
The graphs illustrate 10 separate ...(more)
The Body's Toxic Dump
Dr. Mladenoff, Applied Kinesiologist for the Kansas City Chiefs...(more)
Ionic Field Data
A special force is acting between the metals...(more)
How often can I be treated?...(more)
For years I had chemical sensitivity to all smells, especially perfumes. After five treatments...(more)
Upcoming Seminars
Arlington, VA, Minneapolis, MN, Phoenix, AZ, Reno, NV, Ashville, NC, Dallas, TX...(more)

Harvard Square Cambridge, MA 02238




EB-305 Field Explanation

A special force is acting between the metals in the array. Forces of this type are the result of an electrostatic field that exists around each charged particle or object. This electrostatic field, and the force it creates, can be illustrated with lines called "lines of force" as shown in Figure 4

Figure 4 Electrostatic Field

Charged objects repel or attract each other because of the way these fields act together. This force is present with every charged object. When two objects of opposite charge are brought near one another, the electrostatic field is concentrated in the area between them, as shown in Figure 5. The direction of the small arrows shows the direction of the force as it would act upon an electron if it were released into the electric field.

Figure 5 Electrostatic Field Between Two Charges of Opposite Polarity

When two objects of like charge are brought near one another, the lines of force repel each other, as shown in Figure 6.


Figure 6 Electrostatic Field Between Two Charges of Like Polarity


The strength of the attraction or of the repulsion force depends upon two factors: (1) the amount of charge on each object, and (2) the distance between the objects. The greater the charge on the objects, the greater the electrostatic field. The greater the distance between the objects, the weaker the electrostatic field between them, and vice versa. This leads us to the law of electrostatic attraction, commonly referred to as Coulomb's Law of electrostatic charges, which states that the force of electrostatic attraction, or repulsion, is directly proportional to the product of the two charges and inversely proportional to the square of the distance between them as shown in Equation 1-1.



If ql and q2 are both either positively or negatively charged, the force is repulsive. If ql and q2 are opposite polarity or charge, the force is attractive.


Figure 7 Potential Difference

Potential difference is the term used to describe how large the electrostatic force is between two charged objects. If a charged body (our array) is placed between two objects (feet) with a potential difference, the Figure 7 Potential Difference Between Two Charged Objects charged body will try to move in one direction, (with the EB-305 the charge from the array is either +/-, and is opposite from that of the body [feet]) depending upon the polarity of the object. If an electron is placed between a negatively-charged body and a positively-charged body, the action due to the potential difference is to push the electron toward the positively-charged object. The electron, being negatively charged, will be repelled from the negatively-charged object and attracted by the positively-charged object, as shown in Figure 7.

Due to the force of its electrostatic field, these electrical charges have the ability to do work by moving another charged particle by attraction and/or repulsion. (This process then creates a stable [no charge] state.)This ability to do work is called "potential"; therefore, if one charge is different from another, there is a potential difference between them. The sum of the potential differences of all charged particles in the electrostatic field is referred to as electromotive force (EMF).

The basic unit of measure of potential difference is the "volt." The symbol for potential difference is "V," indicating the ability to do the work of forcing electrons to move. Because the volt unit is used, potential difference is also called "voltage."




home | products | about us | affiliates | checkout | e-mail

Copyright 2000-2011 BIOENERGETIX


EB-305 Energy Balance