The Art of Dowsing

By Michael Fercik

The Art of Dowsing: Separating Science from Superstition book is the first book ever written that comprehensively explains the physics involved in using the modern ball bearing dowsing rod with gauging by pitting gravity against the elemental magnetic flux lines of the dowsed for element or elemental mass. Gravity is used as a gauge for dowsing the edges, middle, grade, angle of depositing with depth buried. The involved physics of each of the ninety-two natural elements radiating out electromagnetic microwave band frequency from single atoms that combine with other atoms of the same element for producing one elemental magnetic flux line, which combine with all the other same element's elemental magnetic flux lines for building enough static electrical energy for the human body produced static electricity to energize the dowsing rod's attached one-tenth-troy-ounce pure element that is dowsed for. The element that is attached to the dowsing rod becomes energized enough by the same element buried in the ground to produce physical turning of the dowsing rod when dowsing toward and over the sought buried elemental mass. Building and maintaining the modern ball bearing dowsing rod and dowsing on foot or amplified long-distance dowsing from a vehicle is thoroughly explained. Michael John Fercik started dowsing for gold ore veins in 1975 with unknowingly becoming a dowsing savant after figuring out the dowsing physics involved, and this is why he has the natural ability today to write the book that will change the world's perspective on all the dowsing false superstitions with the correct dowsing theories and proven science and physics of dowsing in the modern world. Physical on ground dowsing and long-distance dowsing from a moving vehicle is explained in laymen terms for enabling everyone to understand the physics involved in dowsing while shown how to build your own modern ball bearing dowsing rod and how to dowse and gauge what is being dowsed. Physicists will be amazed that nobody has explained the physics involved in dowsing and how to use dowsing physics with gravity as a gauge for understanding the size, grade, angle of depositing, and depth buried of the dowsed elemental mass. Dowsing specific wording is explained in a glossary of terms for easy understanding and communications of the required dowsing process of eliminations. Whether or not you want to learn how to dowse, just reading and understanding the recently proven physics of dowsing will excite the curiosity of expanding previously unknown physics of the electrical energies involved in the human body interacting with the electrical energies of solid or liquid or gaseous matter through the modern ball bearing dowsing rod.

• Language: English
• Publisher: Page Publishing, Inc.
• Release date: Nov 15, 2020
• ISBN: 9781662403934

Book preview

Chapter 1

Theory of Dowsing’s Relativity to the Atomic Theory of Matter

MOLECULE—all matter is made up of extremely small building blocks that are called molecules, which are formed out of combining atoms of one or more of the elements. ATOMS—think of the atom as a miniature solar system. The center of the solar system is composed of neutrons and protons (hydrogen is the only natural element to have no neutrons). Orbiting around the neutrons and protons are electrons, which have staggered elliptical orbits. Each unique distinctive atom is known as an ELEMENT.

The protons are positively charged, and the electrons are negatively charged, with the neutron having no charge at all. The positive protons and neutral neutrons intertwine in the center and is called the nucleus. Weight of the proton and neutron in the nucleus is the same, and around 1,845 times as much as an electron. Size of the proton is much larger than the electrons, but both have the same amount of charge. The protons account for most of the atom’s atomic weight. There are 92 natural occurring elements, with the man-made elements taking the total of known elements to 118. Most of the man-made elements are created in laboratories and survive for less than a couple of seconds, because of becoming unstable from being too radioactive (they literally burn up completely into nothing at all, as if they never existed in the first place).

An atom with the same number of protons and electrons will have no net charge. The protons in the nucleus determines which chemical element the atom is, with a designated atomic number listed in the periodic table that matches the number of protons in the atom. The atomic weight listed with each element progresses in sequence with the number of protons in the nucleus. In large atoms, the electrons do not share the same orbit. Instead, they are in what is called shells, with each having a fixed maximum capacity of held electrons. See figure 1.

The shells from the center outward have a maximum electron holding capacity of two on the first shell, then the next outward shell is eight, then the next outward shell is eighteen, then the next outward shell is thirty-two, and on the fifth shell the maximum electron holding capacity is thirty-two, then a maximum of eighteen electrons on shell 6, with eight electrons maximum holding capacity on shell 7. An elemental atom may have one to seven electrons holding shells.

Silver has two electrons in the innermost shell, then eight electrons in the next outward shell, then eighteen electrons in the next outward shell, then eighteen electrons in the next outward shell, followed by one electron in the last outward shell, for a total of forty-seven electrons in five shells.

Copper has two electrons in the innermost shell, then eight electrons in the next outward shell, then eighteen electrons in the next outward shell, followed by one electron in the last outward shell, for a total of twenty-nine electrons in four shells. Silver has two, eight, eighteen, eighteen, and one electrons in their respective shells, compared to copper, which has two, eight, eighteen, and one electrons in their respective shells. The major difference between silver and copper is silver having forty-seven electrons in five shells, and copper only having twenty-nine electrons in four shells, and of course the number of protons intertwined with the neutrons in the nucleus, with the number of the protons in the nucleus determining which element the atoms belong to.

In all natural elements, starting with the inward shell, the set number of electrons is one or two and cannot be greater than two. The next outward shell is eight or less and cannot be greater than eight. The next outward shell is eighteen or less and cannot be greater than eighteen. The next outward shell is thirty-two or less and cannot be greater than thirty-two. The next outward shell is thirty-two or less, and cannot be greater than thirty-two. The next outward shell is eighteen or less and cannot be greater than eighteen. The next outward shell is the final shell with one to eight electrons, with no more than eight electrons and no less than one electron. The outermost shell on all elements is the final shell with one to eight electrons holding capacity.

The electron-holding capacity progresses on each outward shell until the fourth and fifth shells’ maximum of thirty-two electrons. On the sixth shell, the maximum number of held electrons decreases to eighteen. The seventh or final shell’s electron holding limit is decreased to eight. The electrons in a shell can be under the electron progressive holding limit, such as silver’s fourth shell that has the holding capacity of thirty-two electrons, with only eighteen in its fourth shell. The only exception to the electron holding capacity of the shells is the final shell of every element, in which the outermost shell has a holding capacity of one to eight electrons, but never more than eight electrons, and no less than one electron. All ninety-two of the natural-occurring elements’ electron shells range from one to seven electron shells. The outer shell of one to eight electrons can be shell number 1, 2, 3, 4, 5, 6, or 7. It all depends upon the element that the atom belongs to.

The maximum number of shells of a natural occurring atom is seven. The maximum number of protons of a natural occurring atom is ninety-two (uranium). Maximum number of protons in man-made elements is 118. Elements 93 to 118 on the elemental periodic table are man-made. Electrons can leave an atom without atomic fusion or collision of atoms near the speed of light in a particle accelerator. Neutrons being neutral with no charge assist in stabilizing the electrical magnetic charge that binds the atom together. The positive protons in the atom’s nucleus are electrically charged with a corresponding positive magnetism. The positive proton’s magnetism is causing the protons to be constantly pushing against each other in the atom’s nucleus, which determines the density and atomic size of the nucleus and the atom itself. There is a limit to the size of the atom’s nucleus in natural-occurring elements, because as the size of the atom’s nucleus expands, the nucleus binding force weakens. This is the reason some of the man-made atoms constructed in laboratories survive for seconds or milliseconds before vaporizing into nothing at all.

This is called the island of stability, with element 92, uranium, having the largest amount of stabilized protons in natural-made elements. Most elements made by man are unstable, with some lasting only fractions of a second in a laboratory before vaporizing into nothing. Some elements made by man, such as element 94 plutonium, can be stabilized until the need for released energy that is produced from the vaporizing or unstable atomic chain reactions of explosion and implosion or stabilized release of heat for steam-powered nuclear electrical power generation.

In the world of atoms, there is no such thing as solid material. Instead, there is empty space inside of and surrounding all atoms. The last electron shell that has one to eight electrons holding capacity acts as a force field in keeping each atom at a predetermined distance from the other atoms in a molecule. The combined electromagnetic force field of each natural-occurring element radiates a unique electromagnetic microwave band that both repels and attracts elements of the same kind. The combining of electromagnetic microwave band lengths (frequency) radiates out in distance proportional to the number of the same atom’s element in an ELEMENTAL MASS.

All elements have different sizes and atomic weights that are listed in the periodic table chart of elements and the elemental chemical chart.

Although this is just a brief, simplistic explanation of the atomic theory of matter, it is enough and exactly what is needed to understand the theory of DOWSING, and it is the starting point for the explanation of how each element has its own unique ELEMENTAL MAGNETISM. This element-specific magnetism, along with centrifugal gravity, is what helped concentrate elements together with each other after the big bang created the universe in which we live. This specific unique elemental magnetism is what dowsing is all about.

In layman’s terms, it is easier to compare each of the elements unique magnetic attractions to broadcast radio station wave bands and the DOWSING ROD to a radio. Each element is an individual radio station, with only one element for each radio station wave band. What gives each element its own unique radio station wave band is the total number protons, neutrons, and electrons of that element. We have ninety-two natural, unique radio station wave bands (elements). We have a radio (dowsing rod), but how do we listen to radio station forty-seven protons (silver)? There is only one way we can do it, and that is to turn our radio dial to forty-seven protons by attaching a one-tenth troy ounce piece of silver onto our dowsing rod, which called a DOWSING ROD LOAD. The dowsing rod load picks up radio station forty-seven protons. However, if the dowsing rod load of silver is not 99.999 percent pure silver, other proton radio station wave bands could bleed off into radio station forty-seven protons, or the radio could go into scan phase without the operator’s knowledge. I cannot stress enough for you to use the purist piece of the element sought, such as 99.999 percent pure silver or gold for your dowsing rod load.

Both electronic metal detectors and dowsing rods work off the same scientific principle of picking up the unique emitted ELEMENTAL MAGNETIC FLUX LINES of the TARGETED ELEMENT or TARGETED ELEMENTAL MASS. Electronic metal detectors are powered by batteries, and the dowsing rod is powered by the human neuron electrical signals that are constantly traveling from the brain to all parts of the body, then back to the brain. Another producer of the human electrical power is the heart pumping blood throughout the body producing the expansion and contraction of muscles. Both actions generate a static charge that helps to power the dowsing rod. Walking while dowsing builds a static charge that combines with the natural static charge of the human body, producing a static charge that is strong enough to physically move the dowsing rod into side to side swinging and complete rotations when dowsing an elemental mass that is the same element as the dowsing rod load used.

Chapter 2

Magnetism Theory’s Relativity to Dowsing

The theory of magnetism deals mostly with magnetic materials, permanent and temporary magnets, individual molecule’s magnetic domains, flux density, permeability, retentivity, reluctance, and electromagnets.

Magnetic materials, permanent and temporary magnets, retentivity, and electromagnets, have very little to do with the theory of dowsing. However, individual atoms of a molecule’s magnetic domains, flux density, permeability, and reluctance, are part of the theory of dowsing and will be discussed in detail.

Individual atoms of molecules of the sought elements have unique ELEMENTAL MAGNETIC DOMAINS. It is these unique elemental magnetic domains that combine to emit the unique elemental magnetic flux lines, which are picked up by the prospector using a dowsing rod or electronic metal detector. Since molecules are made up of one or more of the elements, it is usually only one certain element of molecules that is sought—case in point, galena, in which some galena contains a lot of silver and some galena contains very little silver. If you are dowsing for silver and use galena on your dowsing rod, expect to possibly be chasing ghosts. If the galena used on your dowsing rod contains very little silver, then how do you know if the area being DOWSED contains silver? Maybe the area being dowsed has lead, zinc, etc., with no silver, but dowsing with a silver-enriched piece of galena could erroneously lead you into thinking that you have found a silver deposit. Also, it could be just the opposite, and you DOWSE an area that contains a silver deposit with thinking the area does not have a silver deposit if the galena used on your dowsing rod contains very little silver.

It cannot be stressed enough in recommending that you obtain the purist form of the element being dowsed for, such as 99.999 percent pure silver or gold as your needed dowsing rod load. From trial and error, it has been proven that one-tenth troy ounce of the sought element works the best in pitting gravity against elemental magnetism in dowsing’s PROCESS OF ELIMINATIONS.

Elemental magnetic domains are weak compared to magnetized iron or ferrous metal magnetic domains and is even weaker than gravity. To understand elemental magnetic domain’s relationship to dowsing, a little bit of electrical current theory needs to be discussed. The two forms of electrical current are static electricity (lightning and walking on carpet) and current electricity (running through wires). Static electricity is used in dowsing.

An electrical current is the flow of freed electrons in a complete circle, from the negative to the positive (according to modern electrical theory, which used to be just the opposite). The completed flow of free electrons is called a closed circuit. Any interruptions to the closed circuit will stop the flow of free electrons from completing the circle. This is called an open circuit and remains that way until the interruption is eliminated (light switch turned on), then the circuit becomes a closed circuit again. Dowsing reacts to both open and closed circuits.

For the dowsing circuit to be closed, the dowsing rod needs to be dowsing on top of or on the edge of the elemental mass being dowsed. This is where the elemental mass’s elemental magnetic flux lines are completed in a closed circuit. Dowsing a considerable distance past the elemental mass’s edge opens the circuit, because of being beyond where the elemental mass’s elemental magnetic flux lines curve in a sphere shape back into the earth and back into the elemental mass. See figure 2.

The earth is considered negative, and the atmosphere is considered positive in the theory of dowsing. It is the negative earth and positive atmosphere that make an electrical circuit for the flow of free electrons, which energizes the dowsing into movement (swaying and turning).

Both static electricity and current electricity are the free flow of electrons. Actually, what makes electricity flow is the bumping of one of the atom’s electrons from its outermost shell to the neighboring atom’s last electron holding shell, forcing that atom to take in the freed electron in its last electron holding shell. This causes that atom to overload the predetermined last electron shell holding capacity, with forcing an extra electron to jump to the neighboring atom. This chain reaction repeats itself from the electrical negative terminal to the positive terminal or to a circuit interruption. This chain reaction is similar to dominos at nearly the speed of light—except after each domino hits the domino in front, it restands itself instantly, also at nearly the speed of light. All elements or elemental masses have this domino effect happening within itself and around the elemental mass, giving us the ability to dowse for the sought element or elemental mass.

There is a dual power source for the dowsing rod. The first is the neurons firing electrical signals throughout the human body’s nervous system, which is the exciter or power pack that energizes the dowsing rod into the seeking phase. The