Physical Foundation. The SLACKSTONE II® System used to prepare Dialytic Water

The SLACKSTONE II^® System used to prepare Dialytic Water : Physical Foundation

Bodies with a crystalline structure are formed by groups of simple elements (known as "Weiss domains") which are in turn made up of molecules bound together by "ionic" forces of attraction..

The molecules, and, therefore the atoms, of these crystalline bodies have a specific, stable orientation, and thus, only a minimal amount of energy. This results extremely well-defined shape and volume, depending of the different systems of crystallization.

It is important to bear in mind that, although the amount of energy is minimal, electrical fields always exist between the reticular domains.

The electrical fields are governed by Coulomb's Law, which basically states that:

The forces of attraction or repulsion between two particles are directly proportional to their ionic charges (known as valences in chemistry).
This force is inversely proportional to the distance between the particles (thus, proximity or a reduction in the distance separating them will increase the forces of attraction or repulsion).
This is also inversely proportional to a factor known as the "mean dielectric constant". This factor is of primary importance in this case, as the objective is to modify the dielectric constant of water.

That is to say, the aim is to create an electrophysical field that modifies the characteristics of the water molecule.

Now, let's take a look at the characteristics of a water molecule:

WATER DIPOLE

A molecule of normal water (H2O) ) is made up of two hydrogen atoms (H) and one oxygen atom (O), bound together chemically.
The bind between the hydrogen and oxygen atoms has a defined, constant distance and orientation.

AN ORDINARY WATER ATOM

AN ORDINARY WATER ATOM

& = 105º

The water molecule is not symmetric and it is precisely due to this asymmetry that it forms a dipole (+/-) that has a permanent dipolar moment.
One characteristic of dipoles is that when they are placed within an electric field they line up in such a way that their negative charges are facing the field's positive one and their positive charges are facing the field's negative one.
As a result a dipole or dielectric causes the attraction between charges with different signs to decrease.

Consequently, dipoles with a high dielectric constant, such as water, reduce the forces of attraction between the molecules that form the crystals, and the combining capacity of their atoms (H and O) is what causes many bodies, especially salts, to dissolve.

This means that water itself has considerable capacity to dissolve crystals, thanks to its significant dielectric power.

The aim of the SLACKSTONE II^® System is to boost the dissolving capacity of water, so that even salts containing crystals with high cohesion and low solubility can be dissolved.

This is achieved by increasing the dipolar moment, i.e.: the asymmetry of the water molecule.

For this reason it is necessary to influence the distance and placement of the H and O atoms. If we can distance the O atom from the H atoms, and reduce its spatial placement angle from these, the dipolar moment will increase.

A DEPOLARIZED Dialytic Water ATOM

A DEPOLARIZED 'Dialytic Water' Atom

&' = <105º

If we now compare the two earlier figures, we can see that:

ORDINARY WATER ATOM

& = 105º

A DEPOLARIZED Dialytic WaterATOM

&' = <105º

The &' angle' is less than &.
The distance between the H atoms as regards the O atom: d' is greater than d.

The new position of the atoms gives the water, which has now been transformed into Dialytic Water:

Greater dipolar moment (more energy)..
Greater dielectric constant.
Greater power to diminish the forces of cohesion of other crystalline elements.
Greater ability to dissolve mineral salts.

How is this achieved?

To achieve this it is necessary to have an energy that modifies the position of the atoms that make up the H2O molecule.

If we provide a powerful external energy (for example, electricity) its effects may be so strong that we run the risk of destroying the molecule itself (electrolysis).

Thus, we need an energy that, without actually destroying the molecule, modifies it enough to slightly "displace" the H atoms as regards the O atom.

This energy is obtained through the patented procedure of the SLACKSTONE II^® System.

It is presented in an airtight, glass ampoule (two in each packet), which contains sodium chloride and lithium chloride, macro crystals of a specific size, duly prepared and treated with a cinnamic aldehyde with a high dipolar moment, to facilitate the transmission of energy through the glass of the ampoule.

The binding of these two crystals produces the emission of energy of differing intensities depending on the placement of the crystals and, therefore, of their atom.

This is known as electrostatic energy and it is produced between the different crystals, forming small electrostatic fields, whose energy is transmitted perpendicularly to the sides and facets of the crystals.

This is why it is essential that these crystals be of a specific size, as if they were powder-like, there would be several fields but these would not be very wide, and if they were bigger in size, the contact would be greater and the distance (which causes the energetic power to decrease) would be too large.

Although, the crystal ampoules used in the SLACKSTONE II^® System are not the only way to put this energy in contact with the water to be changed, they have proved to be the most effective way of enclosing the sodium and lithium crystals, which create hundreds of tiny electrostatic fields that, in conjunction, generate a circular field around the ampoule. On the other hand, the glass used to manufacture the ampoules of the SLACKSTONE II^® System has special characteristics that allows this energy to pass through to the water.

DIELECTRIC EFFECT

DIELECTRIC EFFECT

Once in direct contact with water for at least 24 hours, the SLACKSTONE II^® System ampoule causes the electrostatic energy produced to modify the dipole of the water, slightly altering the position of its atoms and, at the same time, charging these with dielectric or dipolar energy and the capacity to dissolve and break up other crystalline bodies, such as for example, calcium salts with low solubility.

Thus, Dialytic Water, which was given this name for its disintegrating power, is obtained using purely physical methods.

This potential energy is also slightly radioactive, which can be seen by using a Geiger-Muller counter either on the outside of the ampoule or on the Dialytic Water treated.

In addition, laboratory tests have proved that Dialytic Water has a considerably greater capacity to dissolve salts.

Further information regarding the Physical Foundation²

This procedure, patented and registered under the name of SLACKSTONE II^®, is based on the nature and properties of the material in its solid state, and in particular, in its crystalline state.

The crystals are formed by the grouping together of simple elements (known as "Weiss domains") which are in turn formed by molecules bound together through "ionic" forces of attraction, "cohesive" forces of secondary valences (Van der Waals), etc.

These systems require the molecules be oriented in a specific way and, therefore, the distribution of the atoms must be very stable and have a minimal amount of energy, which will depend on the number of electrons and spins corresponding to the atoms in question. The result is a predominantly volumetric shape known as "crystallization system", for example, the cubic, hexagonal, monoclinic, triclinic systems, with properties that will vary depending on the inclination, for example, of a beam of light, effort, etc., carried out as regards the "crystallization axes" of the crystalline body.

Nevertheless, although the aforementioned physical forces of cohesion and attraction, etc., are considerable when taken as a group, they are quite small when taken as each individual atom and molecule. Therefore, by "attacking" these molecules using a "asurrounding-action" esystem, i.e.: individualized action, it is possible to disintegrate, or better still, break up the crystalline aggregates.

On the other hand, the molecules that form the external ridges and vertexes of the crystalline aggregates have less defenses within the crystalline aggregates themselves, therefore, these external parts are more likely to disintegrate, creating crystalline elements with blunt, shorter vertexes and an apparently smaller volume as a whole.

All the forces of attraction between the molecules of a crystal depend on the medium in which the crystal is found.

It has so far been impossible to express the value of these forces (attraction and cohesion) using mathematical formulae; but in this case it is sufficient to know that they decrease as the "dielectric coefficient" of the medium (ε)increases.

As an approximate formula for determined physical conditions, the following expression is accepted as the value of the electric field of a punctual electric charge Q₁ at the distant point P₂ (r₁₂):

E₁=

Q₁
-----------
4πε₂r₁₂

and the resulting mechanical force on a (punctual) charge Q₂:

f₁₂=

Q₁Q₂
-----------
4πε₂r₁₂

If, instead of a punctual charge, there was a "dipolar moment" polarized body formed by two masses (+q) and (-q) at the mutual distance D, at the direction of the depolarization axis (cosO=1) there would be:

Ep = -

1
----
4πε

2qΔ
-----
r³₁₂

cosO₀ = -

1
----
4πε

2qΔ
-----
r2₁₂

1
----
4πε

2M
-----
r2₁₂

1
----
4πε

2M
-----
r2₁₂

The term (qΔ) is known as the "dipolar moment" and its value will depend on the nature of the depolarized body (water, glycerin, nitrobenzol, ethylic alcohol, etc.) given in descending order.

In accordance with this theory of the solid and crystalline state of the matter, we believe that (with a working knowledge of physics) this further explanation on the foundation put forward by Prof. Dr. José Ignacio Martín-Artajo Alvarez can be easily understood.

This information has been included in the 7th and successive editions in order to provide more in-depth data on the "Physical Foundation" of the SLACKSTONE II^® System used in the preparation of Dialytic Water, and in response to several enquiries from certain health care professionals.

1.- CONTENTS OF THE AMPOULE

Both Sodium Chloride and Lithium Chloride are present in the SLACKSTONE II^® ampoules chiefly because of the similarity of their properties:

They are both Group 1 alkali metals
They are both reactive and good conductors of electricity
They have considerable affinity:

Properties (some)	Na	Li
State Crystalline structure Ionic State Ionization Energy (kJ.mol-1) Electronic Affinity (kJ.mol-1) Electronegativity (Pauling scale) Fusion Enthalpy (kJ.mol-1) Fusion Point (^oC) Boiling Point (^oC) Density (kg/m3 20^oC) Atomic Radius (pm) Van der Waals Radius State of oxidation Shared valences in their atoms (They share the same electronic configuration in the last layer)	Solid Cubic centered 4, 6 494 +53 0.93 2.64 97.8 883 971.2 191 0.0 -1, +1 Na )2e-) 8e-) 1e-	Solid Cubic centered 4, 6 519 +60 0.98 4.6 180.5 1342 534 152 0.0 -1, +1 Li ) 2e-) 1e-

The minerals are prepared using our own exclusive microencapsulation process (one of the two objects of the SLACKSTONE II^®) ampoule that have been patented).

One interesting point is that the Sodium Chloride we use (Rock Salt, Halite) originates from the Miocene epoch (between 10 and 15 million years ago), and it is known as "crystal salt" for its purity and transparency.

On the other hand, due to its considerable dipolar moment, Cinnamic Aldehyde is used to boost the transmission of the action (electrostatic energy) of the aforementioned minerals to the water. It is placed like a string, and joins the north and south poles of the ampoule.

The presence of Sodium Chloride, Lithium Chloride and Cinnamic Aldehyde in the composition of the SLACKSTONE II^® ampoule is exclusively down to their physical, rather than chemical, properties as a group. Our System is a purely physical process.

If we were to judge these components purely for their chemical properties, we would be committing a serious mistake, for example:

The Uses of Sodium

A special component in the extracellular space of living beings
It is used in the diet as an essential nutrient, a food preservative, a condiment (in the form of chloride)
Refrigerant (heat exchanger) in nuclear reactors
Manufacture of anti-knock agents in gasoline
Reducing agent for obtaining other metals
Detergents, whitening agents, manufacture of paper and textile
Street lighting
Fertilizers (in the form of nitrate)
In optics and as a fixing agent in photography
It was used as a means of paying roman legionnaires (salary)

The Uses of Lithium

In medicine, as an anti-depressant (carbonate)
Manufacture of lubricating oils (stearate)
Fuel, very hard alloys, battery electrodes (anodes)
Ceramics and special types of glass
Refrigerant
Humidity absorber in air conditioners (Bromide and Chloride)
To inflate life jackets and as rocket fuel (hydride)
Ventilation and air purification systems in submarines³ and spacecraft, to eliminate carbon dioxide (hydroxide).

The Uses of Cinnamic Aldehyde

To create flavor in the food and drug industry
To make cosmetic fragrances and perfumes
As a stimulant for the digestive function

2.- THE GLASS OF THE AMPOULE

The glass of the ampoule must also have certain special characteristics (see table), if it is to allow this energy to pass through without any loss or variation. This process is also related to light refraction (Maxwell's Equations).

The SLACKSTONE II^® ampoule is hermetically sealed and, as a whole, can be viewed as a battery.

Therefore, its components never come into contact with the water to be treated and the emission of energy towards the water is produced exclusively through the glass of the ampoule.

In the event the ampoule should accidentally break, it can no longer be used and should be replaced by a new one. The resulting liquid will have a salt, bitter taste if drank, and consuming it regularly will lead to digestive disorders (such as diarrhea).

No more than 500 mg of Lithium is contained in the ampoule (in the form of chloride). Although, it should be remembered that when Lithium is used for medical purposes as an anti-depressant (in the form of Carbonate), the recommended daily dose is 600 mg.

CHARACTERISTICS OF THE GLASS USED IN THE
SLACKSTONE II^® AMPOULE

Type of glass			Fiolax blanco I
Tube diameter			17,25 mm.
Coefficient of linear dilation α 20/300 ^{in 10 -6K}			4,9
Temperature of transformation (Tg)			560^oC
Temperature of glass in the following viscosities:
(a Pas = Poise)		10 ^13.0	565^oC
		10 ^7.6	783^oC
		10 ^4.0	1.160^oC
Density			2,39 g/ml
Chemical composition (in % of approx. weight)
	Main elements:
		SIO₂ (Silicic oxide)	75 %
		TIO₂ (Titanic oxide)
		B₂O₃ (Boric oxide)	10 %
		Al₂O₃ (Aluminum oxide)	5 %
		Fe₂O₃ (Iron oxide)
		Na₂O (Sodium oxide)	6 %
		K₂O (Potassium oxide)
		BaO (Barium oxide)	2,5 %
		CaO (Calcium oxide)	1 %
		MnO₂ (Manganese oxide)
Hydrolytic class (DIN 12 111)			1
Acid class (DIN 12 116)			1
Alkaline class (DIN 52 322)			2

3.- THE SISTEMA SLACKSTONE II^® SYSTEM

First of all, the following concept must be taken into account:

Water is known as the "universal solvent", as it dissolves more substances than any other liquid.

As it has bipolar molecules, water is a great means for dissolving ionic compounds, such as mineral salts.

On its own, water in its normal state (at an angle of 105o) can dissolve ionized and non-ionized hydrophilic solutes, with a low or high molecular weight, as perfect solutions and suspensions on the basis of dielectric constant, dipolar moment and concentration of solutes. When these crystalline bodies are hydrophobic and anphipathic, the ionic forces of cohesion (Van der Waals), forces of attraction between molecules and crystalline elements (Weiss domains), etc.

Water covers all the molecules (in our case those of the stones, gravel and microcrystals present in the body and anywhere else these may be found) according their polarity and the non-covalent hydrogen bridges or bonds formed with molecules, parts of molecules and ions.

The greater the dipolar moment (more energy) the greater the solubility of water.

Using the SLACKSTONE II^® ampoule normal water is subject to the electronic radiation of mildly active alkaline salts for a period of 24 hours (the maximum distancing between the molecules of the water occurs in 24 hours, as does the greatest increase in spins). The molecular arrangement of the water is produced by physical action and gives rise the Dialytic Water.

In comparison with normal water, Dialytic Water has a greater dipolar moment (more energy), a greater dielectric constant of the medium, a greater ability to diminish the forces of cohesion of the crystalline elements and a greater ability to dissolve mineral salts.

Once inside the body Dialytic Water, immediately begins to progressively and accumulatively weaken the ionic bonds of the crystalline agglomerates, formed (as we have already stated) by the ionic forces of cohesion (Van der Waals), forces of attraction between molecules and crystalline elements (Weiss domains), etc.

This action causes the molecular layer of these agglomerates to disintegrate, and the most vulnerable parts, such as the corners and edges, break away. When the agglomerates are large in size, fragmentation occurs progressively.

The basis of the SLACKSTONE II^® System (the greater amount of energy emitted by the ampoule) is the interface electron pairs (in our case glass-glass). These electron pairs depend on the movement of the electrons from both of the alkaline metals, with the alternating approach and distancing of the electric charges and their corresponding spins.

The energy emitted by the SLACKSTONE II^® ampoule can be measured in several different ways, but perhaps the most impressive is the method shown in the "Report on Kirlian photographs". We did not conduct this study.

4.- THE ENERGY OF THE SLACKSTONE II^® AMPOULE

The electrostatic energy of the SLACKSTONE II^® ampoule is only discharged in the presence of water and is sufficient to prepare 40 glasses of Dialytic Water. After such time, a new ampoule will be needed.

The energy transmitted to the water is transitory and lasts as long as the charged field (the ampoule) is kept sufficiently close to the water to be treated. For this reason it is necessary to consume the Dialytic Water once it has been prepared (see patient information leaflet), a process which takes approximately 24 hours, sufficient time to modify all the molecules in the recommended amount of water (250 c.c.).

This is why Dialytic Water cannot be sold already prepared, as has been suggested on many occasions.

Once the source of energy (the SLACKSTONE II^®) ampoule) has been removed from the water the modified molecular position will return to its initial state (an angle of 105o), however, this does not happen instantaneously. The Dialytic Water consumed is metabolized by the body in 30/45 minutes, enough time to ensure that the modified molecules are not retransformed into normal water.

The mass of the ampoule is directly related and proportional to the body of water to be treated.

The only aim of the SLACKSTONE II^® ampoule is to act as a medium to transform normal water into Dialytic Water.

Dialytic Water has properties that eliminate and/or impede the formation of crystalline bodies in the system (all types of stone, gravel, microcrystals, etc., wherever these may be).

Since 1966, the SLACKSTONE II^® used to prepare Dialytic Water has been sold in packets containing 2 ampoules (for 40/80 days of treatment) and today can be found in several different countries.

1. This study has been conducted base upon those conducted by Drs. Carmelo Hoyos Fitto, José Ignacio Isusquiza Carro and Jesús Piernas Manzano; and it was published into the book entitled "LA LITIASIS RENAL" (THE RENAL LITHIASIS); (ISBN 84-500-5204-1).

2. See book entitled "CAMPOS ELÉCTRICOS Y MAGNÉTICOS" (ELECTRIC AND MAGNETIC FIELDS) by J.I. Martín-Artajo (Aguilar Publishing House, Madrid 1984).

3. Each gram of Lithium Hydroxide burns 0.51 gr. of CO2. Father Martín-Artajo (inventor of the SLACKSTONE II^® System) was at the forefront of these investigations and he patented several important, although unfortunately transcendent, systems and procedures. (The "Almirante Mimitz" Submarine).

The Inventor of the SLACKSTONE II^® System

Therapeutic Foundation

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SLACKSTONE II® System, the natural solution to prepare Dialytic Water

SLACKSTONE II^® System, the natural solution to prepare Dialytic Water