Post by Admin on Sept 17, 2007 22:20:03 GMT 2
Originally posted on:
www.littlemountainsmudge.com/orgonematrixcascadingdensities1.htm
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Orgonite is made in different densities, and it has different maximum orgone charge densities according to the physical density of the material. The more dense a mixture of metal and organic material, the more orgone per cc the material will store.
This creates 3 usable effects which we will discuss. The first, and most obvious effect is that orgone matrix material of higher density will release ‘more’ orgone when stimulated, and therefore increases the efficiency of power-driven orgone generators for radionics or other applications. I have already said lots about this aspect of the material, so let’s move on to the next one.
The second effect that emerges is that the directional flow of the energy between two adjacent pieces of orgone matrix material of differing densities will generally be from the lower density towards the higher density. This is an effect which can be useful in engineering bioenergy devices, because it allows you to induce the energy to go where you want it to go.
Additionally, this effect is useful because it allows for large masses of ultra high density matrix material to be stimulated without the need for external power input in the form of heat, light, sound, emf, scalar, or other energies. There is something of a knack to getting the sizes of the different density castings right in proportion to each other, but in simple terms if you put say a 3oz mass of MHD right next to a fist-sized mass of EXD, then the energy field from the smaller, lower density casting will be pulled into the energy field of the higher density casting. In the act of being attracted and absorbed, this additional energy sets up a chain reaction which stimulates the higher density casting to release energy. The input from the small casting pushes the larger casting past its saturation point. Ordinarily, the higher density casting would need to be excited in some way before it would release any significant amounts of orgone. By placing it next to a smaller mass of lower density orgone matrix material, we can get it to work in a ‘passive’ mode. The presence of a smaller piece of orgonite can be used to excite it.
One application for this (a simple one) is to pour or paint a thin coat of XHD or EXD on the outside of a TB, leaving one side (or the bottom) free of the high density coating. This has the effect of increasing the overall energy throughput of the TB, and improving radionic programming retention since the higher densities are better at storing radionic data than lower densities.
Existing radionic orgone generators made of MHD or HD can be significantly upgraded by the addition of a coat or thin casting of XHD on the output surfaces of the orgone generator. However, if the XHD coating is applied to the wrong (input) side of the existing generator, it may dramatically reduce the effectiveness of the generator by causing the energy to flow in the wrong direction, trying to go ‘out through the in door’ as it were. By ‘output surfaces’ i mean the side of the orgonite casting that emits the energy from your generator.
The third effect of note is the formation of stratified force lines and membranes in the energy field of the device. What the hell does that mean, Jon? Well, if you were to look into the energy field of a living person, or have someone who can do it for you, you would see that a person’s aura, like most energy fields, is not homogenous... it is not the same throughout. Over here it is sharper, over there a bit dimmer, a bright stripe of red here and an amorphous blob of blue over there. Blobs and stripes, flashes and flares. Looking at the aura is like looking at a cutaway view of several layers of an iridescent onion. The layers of the onions, they are separated by force membranes. And the stripes of color and brief flares are force lines, some permanent and some temporary. Most clairvoyants agree that the aura has several layers, at least 3- an inner layer, a middle layer, and an outer layer. Energy in all of these layers is always in motion, but at different speeds and in different directions. It is much easier for energy to flow around on the surface of a layer of the onion than to jump from one layer to the next. That’s because the difference between the two layers creates something which i call, (creatively enough) a force membrane. A force membrane (or a force line) is a region of comparatively high energy charge density, with a very high rate of flow in the ‘in-line’ or lateral directions and a very high resistance to flow in the ‘cross-the-grain’ or tangential directions.
The energy field of a subtle energy device has these non-homogenous characteristics, much like the aura of a living being. When making something simple like a TB, we do not need to worry about taking into account these lines of force and nested envelopes within the field. But in the quest for the orgone laser, we do!
These ‘internal features’ of the energy field generated by a device can be used intelligently in the design of advanced orgone generators. More on this later, buts lets look in a bit more detail at the second effect, and how it applies to orgonite.
To Recap, we can say that orgone matrix material can be rated by density, and that rating in effect distills to 3 characteristics:
A - how strongly the orgonite attracts energy
B - how strongly it holds on to that energy
C - how much energy it takes to saturate the matrix.
Take a minute to look at the (rough) tables below.
A (more like A / B )= flow rate
B (more like A * B )= charge density
The saturation point is influenced by several factors, including the mass of the casting, the geometry and configuration of the device, the ambient energy field strength, etc. While the characteristics of a given piece of orgonite may remain the same, the saturation point may vary somewhat under differing conditions. As a simple rule of thumb, you could say the saturation point for a given piece of orgonite is equal to
A * B * Volume of the orgonite. More on this later.
Imo, it makes sense that MHD is so good at ‘resetting’ and ‘clearing’ energy patterns because the charge density that it will absorb on its own is pretty close the maximum amount of charge that it can store, so it easily passes the saturation point and begins to emit energy, cycling ambient energy through in the process.
Likewise, EXD builds to a higher charge density but has a higher yet saturation point. So, it requires both the energy that it absorbs and holds while just sitting there AND an additional catalysis of ‘destabilizing’ energy input before it will begin to emit energy in any significant quantity.
So what if we cheat? What if find a way to artificially lower the saturation point of the EXD, while keeping the charge density high? Then we should get ‘more’ energy at the output end because it will be high flow / high charge... right? If we embed a small casting of LD (just organic resin no metal) on one side of the EXD casting, we get a chart like the one below. The LD casting should be exposed on one side at least, and not fully enclosed by the EXD.
Now, the flow rate, charge density and saturation point are all in the same bracket. That means that not only does the generator produce more energy output, but it also can act as an amplifier, picking up weak energy signals and reproducing them at much higher ‘volume’. Depending on how the castings are put together and what recipes are used, the device can be optimized for either passive or power driven use, but in either case the end result is more powerful in terms of output than a larger casting of single density.
So how did we do that? We fooled a small region of the EXD into thinking it was LD, and we created a region where energy can enter the device without having to overcome the resistance created the force membrane of a highly charged mass of orgonite. The LD will always have a weaker force membrane than the EXD, so it can be used to draw energy in from the ambient surroundings and once that energy is drawn in, it sets up the chain reaction which pushes the EXD past the saturation point. Once that process starts, the LD acts like a shock absorber between the highly charged EXD and the background energy of much lower intensity. Since nature abhors a vacuum, the charges try to balance. But instead of balancing, the energy in motion is recycled and put to work stimulating the matrix to release extra energy, which in turn draws more energy, and so on. This process results in a virtually continuous SELF_INDUCED flow which may then be exponentially increased by adding stimulation.
Well, that’s the basic concept. With a little attention to detail, relative size and shape of the castings, etc. this process can be made significantly more or less efficient. But what about the orgone laser? Read the second article, as this one lays the foundation for it. The QMD ‘orgone laser’ designs folks have been asking about depend in part on the use of cascading densities of orgone matrix material, and of intelligent use of force membranes / linear flows. More on this in part 2!
©2005 Jon Logan
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www.littlemountainsmudge.com/orgonematrixcascadingdensities1.htm
---------------------
Orgonite is made in different densities, and it has different maximum orgone charge densities according to the physical density of the material. The more dense a mixture of metal and organic material, the more orgone per cc the material will store.
This creates 3 usable effects which we will discuss. The first, and most obvious effect is that orgone matrix material of higher density will release ‘more’ orgone when stimulated, and therefore increases the efficiency of power-driven orgone generators for radionics or other applications. I have already said lots about this aspect of the material, so let’s move on to the next one.
The second effect that emerges is that the directional flow of the energy between two adjacent pieces of orgone matrix material of differing densities will generally be from the lower density towards the higher density. This is an effect which can be useful in engineering bioenergy devices, because it allows you to induce the energy to go where you want it to go.
Additionally, this effect is useful because it allows for large masses of ultra high density matrix material to be stimulated without the need for external power input in the form of heat, light, sound, emf, scalar, or other energies. There is something of a knack to getting the sizes of the different density castings right in proportion to each other, but in simple terms if you put say a 3oz mass of MHD right next to a fist-sized mass of EXD, then the energy field from the smaller, lower density casting will be pulled into the energy field of the higher density casting. In the act of being attracted and absorbed, this additional energy sets up a chain reaction which stimulates the higher density casting to release energy. The input from the small casting pushes the larger casting past its saturation point. Ordinarily, the higher density casting would need to be excited in some way before it would release any significant amounts of orgone. By placing it next to a smaller mass of lower density orgone matrix material, we can get it to work in a ‘passive’ mode. The presence of a smaller piece of orgonite can be used to excite it.
One application for this (a simple one) is to pour or paint a thin coat of XHD or EXD on the outside of a TB, leaving one side (or the bottom) free of the high density coating. This has the effect of increasing the overall energy throughput of the TB, and improving radionic programming retention since the higher densities are better at storing radionic data than lower densities.
Existing radionic orgone generators made of MHD or HD can be significantly upgraded by the addition of a coat or thin casting of XHD on the output surfaces of the orgone generator. However, if the XHD coating is applied to the wrong (input) side of the existing generator, it may dramatically reduce the effectiveness of the generator by causing the energy to flow in the wrong direction, trying to go ‘out through the in door’ as it were. By ‘output surfaces’ i mean the side of the orgonite casting that emits the energy from your generator.
The third effect of note is the formation of stratified force lines and membranes in the energy field of the device. What the hell does that mean, Jon? Well, if you were to look into the energy field of a living person, or have someone who can do it for you, you would see that a person’s aura, like most energy fields, is not homogenous... it is not the same throughout. Over here it is sharper, over there a bit dimmer, a bright stripe of red here and an amorphous blob of blue over there. Blobs and stripes, flashes and flares. Looking at the aura is like looking at a cutaway view of several layers of an iridescent onion. The layers of the onions, they are separated by force membranes. And the stripes of color and brief flares are force lines, some permanent and some temporary. Most clairvoyants agree that the aura has several layers, at least 3- an inner layer, a middle layer, and an outer layer. Energy in all of these layers is always in motion, but at different speeds and in different directions. It is much easier for energy to flow around on the surface of a layer of the onion than to jump from one layer to the next. That’s because the difference between the two layers creates something which i call, (creatively enough) a force membrane. A force membrane (or a force line) is a region of comparatively high energy charge density, with a very high rate of flow in the ‘in-line’ or lateral directions and a very high resistance to flow in the ‘cross-the-grain’ or tangential directions.
The energy field of a subtle energy device has these non-homogenous characteristics, much like the aura of a living being. When making something simple like a TB, we do not need to worry about taking into account these lines of force and nested envelopes within the field. But in the quest for the orgone laser, we do!
These ‘internal features’ of the energy field generated by a device can be used intelligently in the design of advanced orgone generators. More on this later, buts lets look in a bit more detail at the second effect, and how it applies to orgonite.
To Recap, we can say that orgone matrix material can be rated by density, and that rating in effect distills to 3 characteristics:
A - how strongly the orgonite attracts energy
B - how strongly it holds on to that energy
C - how much energy it takes to saturate the matrix.
Take a minute to look at the (rough) tables below.
A (more like A / B )= flow rate
B (more like A * B )= charge density
The saturation point is influenced by several factors, including the mass of the casting, the geometry and configuration of the device, the ambient energy field strength, etc. While the characteristics of a given piece of orgonite may remain the same, the saturation point may vary somewhat under differing conditions. As a simple rule of thumb, you could say the saturation point for a given piece of orgonite is equal to
A * B * Volume of the orgonite. More on this later.
Imo, it makes sense that MHD is so good at ‘resetting’ and ‘clearing’ energy patterns because the charge density that it will absorb on its own is pretty close the maximum amount of charge that it can store, so it easily passes the saturation point and begins to emit energy, cycling ambient energy through in the process.
Likewise, EXD builds to a higher charge density but has a higher yet saturation point. So, it requires both the energy that it absorbs and holds while just sitting there AND an additional catalysis of ‘destabilizing’ energy input before it will begin to emit energy in any significant quantity.
So what if we cheat? What if find a way to artificially lower the saturation point of the EXD, while keeping the charge density high? Then we should get ‘more’ energy at the output end because it will be high flow / high charge... right? If we embed a small casting of LD (just organic resin no metal) on one side of the EXD casting, we get a chart like the one below. The LD casting should be exposed on one side at least, and not fully enclosed by the EXD.
Now, the flow rate, charge density and saturation point are all in the same bracket. That means that not only does the generator produce more energy output, but it also can act as an amplifier, picking up weak energy signals and reproducing them at much higher ‘volume’. Depending on how the castings are put together and what recipes are used, the device can be optimized for either passive or power driven use, but in either case the end result is more powerful in terms of output than a larger casting of single density.
So how did we do that? We fooled a small region of the EXD into thinking it was LD, and we created a region where energy can enter the device without having to overcome the resistance created the force membrane of a highly charged mass of orgonite. The LD will always have a weaker force membrane than the EXD, so it can be used to draw energy in from the ambient surroundings and once that energy is drawn in, it sets up the chain reaction which pushes the EXD past the saturation point. Once that process starts, the LD acts like a shock absorber between the highly charged EXD and the background energy of much lower intensity. Since nature abhors a vacuum, the charges try to balance. But instead of balancing, the energy in motion is recycled and put to work stimulating the matrix to release extra energy, which in turn draws more energy, and so on. This process results in a virtually continuous SELF_INDUCED flow which may then be exponentially increased by adding stimulation.
Well, that’s the basic concept. With a little attention to detail, relative size and shape of the castings, etc. this process can be made significantly more or less efficient. But what about the orgone laser? Read the second article, as this one lays the foundation for it. The QMD ‘orgone laser’ designs folks have been asking about depend in part on the use of cascading densities of orgone matrix material, and of intelligent use of force membranes / linear flows. More on this in part 2!
©2005 Jon Logan
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