Water as a crystal

N34

The Force is Strong With This One
In arbitrary state, water is amorphous and can take on itself any form. We know that water can mimic any substance on earth. It has unique properties because it is liquid and at the same time it is crystal. As such it has no defined structure, the organization and structure can continuously shift or be intelligently shaped to reflect the properties of anything.

We utilize crystals for many things already. We have crystals that we use as personal helpers ,or amulets, which need to be charged and then for some time retain the charge. But we also utilize properly cut crystals for measurement of time. In every quartz clock there is quartz crystal that is tuned to the frequency of 32768 Hz. That is, it makes 32768 oscillations every second. Simple divide by two circuit is then applied 15 times and the result is a pulse that is send every second to the clock movements.

Technically, any material could be utilized as an oscillator or transmitter. But practically, only materials with low losses are suitable. Due to their very stiff structure, crystals like to naturally oscillate. Pure crystals can achieve high energy magnification. The higher the purity of the crystal, the less losses are present in the crystalline structure and the higher the magnification. It is not unheard of values in millions range for high quality crystals. This means that with the energy input of 1 unit per cycle, the crystal can ultimately accumulate energy of 1 million units, which can be utilized in any way. The strength of the crystal structure also depends on the purity. Higher purity crystals have stronger structure as the impurities tend to weaken the crystalline bonds. This is important, because over-stressing the crystal leads to fracturing.

In water this is of no concern, because water being liquid has self-healing properties. As soon as fracture occurs, the water molecule is split into its gaseous components, namely hydrogen and oxygen, which are due to buoyancy always separated from the water volume and the crystalline structure is in this way always maintained in perfect condition. The purer the water is, the better crystal it makes.

We amassed substantial amount of knowledge. But knowledge as such is useless unless it is properly utilized. The result of utilization is something of practical value, that can be used by anyone and can improve drastically the way we live. Imagine a world where you don't need to ingest or inject drugs or chemicals into your body. Instead the information is transmitted directly to the water in your body. Imagine a world where there are no diseases, because as soon as any deviation is detected a cancelling signal can be transmitted, to any location in your body, and the disease would be eliminated. Obviously it is not this world, but different world which needs to be created. A world that is based on knowledge and understanding.
 
Hi @N34 - interesting post, although the motivation for it (or maybe the conclusion?) escapes me somewhat - care to elaborate?
Hello nicklebleu,

Of course. The motivation is always the same. To help. The healthcare in this world is mostly a sick joke. The drugs that are sold for profit are more probable to maim, or kill, than to help. People are not treated as humans anymore. Therefore here an alternative is proposed for those who are interested.

It is healing technology based on homeopathy, but taken to the next level. It can be said that it is homeopathy on steroids. In simple terms, water because it is part of the body can be utilized to not only transmit information, or status of the body, it can also receive any kind of information. Therefore direct communication with the body is possible. As such it is possible to remedy any illness only by transmitting information directly to the body. It is also possible to diagnose almost anything once we learn the communication protocol. As information is really just vibration, we can utilize crystal structure to read or write the information. The technology is really simple and easy to understand so it should be fairly straightforward to develop.

For us, who are working on this, the understanding is present, that this world is merely a school for those who asked for lessons to learn. We respect that. The technology is not intended for this world and normally only after graduation we would work on it. But there was perception of standstill, walking on the same spot, lack of progress, waiting. Therefore a decision was made to not waste time and go ahead and maybe have a head-start. The knowledge is mostly present, but needs to be utilized. What challenges and discoveries await is mostly unknown.

That, what would take one person 100 years to research and develop, can take like-minded group of people, that are on the same page only couple of years. The progress in such case is exponential. Therefore the work is shared, from us, for us, so to speak. Maybe it can even help many of us, while waiting, who knows.

This is very exciting area of research. Water is one of the most underestimated and misunderstood substances in this world. Crystals, same. Initial research has been done, and will be presented in next posts. Afterwards, it is uncharted territory - any help is welcome.
 
I think you can share and complement your thoughts about it here:
 
What makes a crystal, crystal. First of all, crystals have very peculiar properties due to their structure. Crystal structure is very highly organized, almost as if someone carefully arranged the building blocks of their structure one by one in particular order. This makes the structure extraordinarily stiff. Even slightest elastic displacement causes rise to extreme forces that are carried by the structure. At that time, due to inertia, the atoms oscillate imperceptibly at the atomic level. Because of the microscopic displacements, losses are also almost nonexistent. In most materials the loss is due to excessive friction due to large displacements. Not so in crystals. Crystals oscillate completely freely, and as a result can pick up even the faintest of signals. Not only that, properly tuned crystal can also magnify signals that are traveling through the crystal from even the deepest space. Drawback is, the structure does not support plastic deformation, as the entire crystal is one big grain, so excessive force leads to fracture and destruction. Crystals have preferred direction of growth. Even though crystals can oscillate in different modes, longitudinal mode along the growth direction is preferred due to low losses.

Water in its ordinary state is amorphous and behaves as if composed of huge amount of tiny crystals each with different orientation. For what we know, even the water molecule itself can be called a crystal. If a pulse would be sent to water in this state, it would be split and dissipated in many directions and no clear signal would be detected. Therefore it is important to learn how water can be polarized.

Water molecule is composed of single oxygen atom and two hydrogen atoms. The net charge of the water molecule is neutral, but because of asymmetric arrangement of the atoms, the elastic energy is not uniformly distributed. The oxygen atom is slightly negative, while both the hydrogen atoms are slightly positive (1). Normally the water molecules are not arranged in any particular order. They are free to move in any direction and free to rotate, looking as if dancing and making pirouettes (2). But once a polarizing field is applied, due to their asymmetry, they will align with the field and organize themselves into long lines (3). At that time, the water can be used as a crystal, as while there is tension applied, the molecules act almost as a string that is being tensioned and now it can support oscillations. For now, we are only interested in simple uniform polarizing field made of two conductive plates. Ultimately, water can be organized into any structure, given that appropriate fields are utilized.

It seems to be fairly easy to make water crystals, but there is slight problem. Water being conductive, as soon as potential is applied across the water, current starts to flow. The current represents rigid body motion, which we are not interested in. It is losses. But moreover, the current causes dissociation of water into gases and disturbs the crystal structure. This would introduce noise in the very feeble signals we are trying to read. It is important to establish clear communication channel. Thus the first challenge is to find a method that can polarize water without any disruption.


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I forgot to mention, that we believe, that after some progress has been made in the main branch of the research, the research branches into many other smaller branches. One of the branches is long-distance communications, and inter-density communications, using crystals.
This means, that if we can properly utilize knowledge in this direction, we will be able to finally talk with our mom, Cassiopaea directly. We will hear her voice! No more of the excruciating calling of letters and falling off hands! Progress will be faster, she will be very happy.
 
In order to better understand and visualize the behavior of water crystal, some kind of model is necessary. For this research, commonly used model for crystals was adopted, with slight modification - solid crystals are not conductive, whereas water is, therefore a resistance Rext is added in parallel (4). This is not ordinary resistor, it is highly nonlinear resistance that is inversely proportional to the conductance of the water. The conductance of water depends on the state of the water. For example total dissolved solids aid the conductance, therefore salt water is more conductive than tap water. But it is also dependent on the state of polarization and also time. Therefore entire state space of water can be defined. Our goal is to find region of the state space for which the conductivity is zero or close to zero.

Why water is conductive is mostly well understood. The dissolved particles are acting as energy carriers that can freely move through the water. If polarizing potential is applied to the water, the particles are accelerated and current starts to flow. Fortunately, these particles are not very agile. They are more like a big hauling trucks than anything else. They have considerable inertia associated with them and so they accelerate slowly and move lazily. The water molecules are, on the contrary, very agile and quick on their toes. As soon as the polarizing pulse is sent, the molecules readily order and form lines as if they are holding hands. Therefore it was found, that we can polarize water, but not permanently, simply to prevent the current from flowing, but also the water molecules have time to rest and relax.

The polarizing pulse is preferably soft, resembling part of sine wave but unipolar. If sharp pulse is used it tends to excite spurious vibrations, or agitate the water, which in some cases can be useful, but if we are trying to read information that is present, then we try to polarize the water gently. It is similar to having a piano string which is not under tension, but one end of the string is firmly held in place. Forcefully pulling on the free end in order to tension the string excites the string and it is visible that the string vibrates in many modes of vibration. It is also audible. What is preferred, is to tension the string in gentle way, so that even though the string can support oscillations, we will not induce any oscillations. The oscillations present in the string should be only oscillations present in the environment.

In the model the Lw, Cw and Rw are the motional parameters of the water crystal once the water is polarized. It is these three parameters that are responsible for oscillations. The external capacitance Cext is always present, because as soon as we put two conductive plates together, the plates form capacitor. The Cext is charged to polarize water that is between the plates.

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Any research can be perceived as overwhelming or too complicated. But even the hardest tasks can be acccomplished by taking it step by step and eventually the goal will be reached.
The hardest part is to start somewhere, and here the most fundamental task is to find a way how the polarizing pulse can be delivered to water and how the pulse can be formed in elegant and economic way. We spent the longest time debating how to do this. We know that the pulse should be harmonic, that is, resembling part of sine wave, but it also needs to be of variable amplitude to allow for frequency sweeps. Having harmonic excitation would achieve this automatically, as the pulses in a pulse train can be of increasing amplitude.

To explain this in simple terms, we can have a look at a piano. If we open the piano, we see many strings that are of various lengths and thickness, some of them are wound with copper wire and some of them are just bare wire. It is obvious that someone made the strings in such way, that they have very well defined inertial and elastic properties. We observe the peculiar shape of the piano, which resembles part of a wave. The need for the shape is obvious once we realize, that the length of each string affects its natural resonant frequency, and that means also the tone, or pitch which the string emits once it is hit by the hammer. We can also fine-tune the pitch of any string by increasing or decreasing the tension of the string. This changes the stiffness of the string.

Water molecules, once polarized, are forming elastic structure similar to strings. Similarly the resonant frequency of water crystal depends not only on the thickness of the crystal, but also on the polarizing force, that is, how much tension is applied. The water molecules themselves are elastic and can elongate (5). This results in change of elastic properties represented by Cw in the model. If we visualize this as a simple mass-spring system, then this means, that we can change the stiffness of the spring. This might seem like it is of no significance, but such impression is misleading.

In one of experiments, a solid quartz crystal was subjected to polarizing field. It was found, as expected, that even solid crystal can be tuned slightly, but it requires extraordinarily high voltages. In order to tune solid crystal for certain frequency, it is easier to cut it to proper shape and size. Water crystal, being much softer allows for wide range tuning. It is a tuneable crystal. What this means, is, that we can tune into even faintest of signals by changing the polarization amplitude, very similarly as if tuning a radio to a radio station.

In radio broadcasting, all stations are present in the same space, but they are separated in frequency domain by having different frequency of carrier signal. If we would not have a radio, we would not be aware that there is anything going on. We cannot see, hear or perceive radio waves. If we take a radio and tune it to arbitrary frequency between the stations, we only hear noise. But if the frequency of the tuning circuit is matched with the frequency of the radio station, we can hear clearly the broadcast, because the signal is amplified by the radio.

These concepts are very well known. We believe that it is similar with the information field. All the signals are always present, it is just a matter of tuning into them and then decoding the information which they contain. By having tuneable water crystal, and harmonically forming the polarizing pulse, we can very finely change the natural frequency of the crystal, by changing the amplitude of the pulse in fine increments or decrements, by injecting more or less energy into a pulse train. This way we accomplish frequency sweep, very similarly as it is present in spectral analysis. Nevertheless, this method is universal in that we can detect the characteristic signature not only of minerals or substances dissolved in water, but also of viruses, microorganisms and anything else.


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