The Fifth Force
of Nature
Unlocking the Secrets of Earth’s Energies and Health Connections
Introduction
The result of this force has been exploited for thousands of years. It has been used to find water in the ground. People have used a Y-shaped rod from a tree. This is called water dowsing. The technique is to hold the rod with two hands and then walk over the ground. If the rod suddenly bends up or down, then there is water under this spot. Later, two L-shaped rods have been used for the same purpose. The rods are usually made of metal, and each rod is carried one in each hand. Then if the rods suddenly cross or repel each other, then there is water beneath. I have seen a picture of a Chinese empire using this technique several hundred years ago.
The force has huge health consequences. The human body absorbs the energy in the field produced by the force. This is, in almost any case, bad for the body. Many illnesses can be traced back to this force. This is not discussed in this writing because this is a secondary issue of this force. Here I mainly discuss the physics of it. The force can have a great technological aspect as well.
This article is a physics view of the phenomenon. Here I describe the main sources of the fields created by the force and the physics behind it. I also describe the main way of absorption and the mechanism behind that. Lastly, I write about the traditional way of detecting these fields and then a new way of detecting fields. The new way is an invention of mine, which has an advantage over the traditional techniques. The advantage is that the traditional technique relies on the “sensitivity” of the person performing the measuring, which my technique does not.
Sources
Here I mention some typical sources of fields. I called the fields stress radiation. The name stress comes from the effect it has on a human body. The origin of stress radiation comes from the reduction in potential energy. Normally, potential energy is converted into kinetic energy. But for some systems, not all the energy ends up as kinetic energy. Some of the potential energy is radiated away as stress radiation.
Reduction in the gravitational potential of fluids
If water has potential energy and is flowing down, normally the potential energy is converting into kinetic energy as the speed of the flowing water increases. In certain cases, the speed of the water does not increase. This can happen when the water is flowing in a pipe. Then some of the potential energy is radiated away as stress radiation. Water is not the only fluid this happens to. It is likely to think this would happen to every fluid in the same case.
Decreasing pressure
If a medium is undergoing a rapid decrease in pressure, some of the potential energy will radiate away as stress radiation. The medium could be all of the three common states of matter, which are gas, fluids, and solids. The most common medium is water and air. In a fan system, there will usually be a decrease in air pressure, which produces stress radiation. The case with fluids is the phenomenon of water veins. This case is described below. A case of solids is the stress radiation which can come from pressure changes in faults.
Water veins
It has always been important to find water. For thousands of years, man has tried to find water when water was not present above the ground. At some time in history, a man held a Y-shaped rod and walked with it. At a point where the ground was moist, the rod bent. The idea of finding water with a Y-rod emerged.
It is not necessary to be any sign that there is water under the ground above. The water can be present many meters beneath the ground. It is not like a river that flows. It flows in the many tiny cracks in the rocks. This can be seen in a rock wall. If rock has been cut, for instance, to make a road, one can see the rock is moist at some places. At least if it has not been dried for long.
One odd thing with the radiation from water veins is that it is only detected right above the vein. The common thing to think is that the radiation will move in all directions, but it does not, in this case.
Hartmann grid and the directional fields
Dr. Ernst Hartmann lived in the 20th century. Born in 1915 in Germany. He did a lot of research in what he called geobiology. What he meant by that name is a little unclear. But he used several techniques to detect stress radiation. I guess he also used the Y-rod, normally used to detect water veins. More likely is that he used L-rods. Here one uses two L-shaped rods. Usually made of metal. One holds one rod in each hand. The hand is held at 90 degrees out of the body. The L-rods are then pointing out of the body. Both arms are held in a way that the two L-rods are parallel to each other. When the body is exposed to stress radiation, the rods swing to a position where they are either crossing each other or pointing opposite to each other. This is a better technique than the Y-rod. As I will mention later, a wider range of radiation could be detected. He also used an apparatus that measured skin resistance to detect radiation.
Research revealed that there was a system of detections. If one walked in a south-north direction, there were detections every 2 – 2.5 meters. It was the same if one walked in an east-west direction. Hartmann concluded that there was a grid structure covering the earth. The grid was lines going from south to north and lines going from east to west. The width of the lines was variable but commonly about 20 cm wide. This grid structure is since then commonly known as Hartmann grid. In two dimensions, the pattern is a grid, but in three dimensions, the lines are walls.
There are fields going south to north and from east to west (directional fields). These fields are the origin of the Hartmann grid. The Hartmann grid is the result of frequency shift in the directional fields. The frequency of the wave in the direction fields is many times larger than in ordinary fields. This is why the directional fields have not been detected by traditional techniques. The wavelength of the waves in the directional fields is in the range of millimeters. Normally, fields that have been detected have a wavelength around 0.5 – 1 meter. The origin of the directional fields is still a mystery.
Electric activities
The potential energy in an electric system can be given by two equations and these are:
C is the capacitance and L is the inductance.
On the power grid, there is an oscillating voltage (V) with different magnitudes. As the above formula describes, the potential energy in that system is the square of the magnitude of the voltage. The oscillation of the voltage creates an alternation in potential energy. This creates stress radiation. As the formula describes, the amount of radiation is highly dependent on the voltage in the system. The current in the system can even be near zero, and the system radiates. All you need is a wire connected to the power grid to generate radiation. The energy in the radiation is proportional to the square of the voltage. The radiation is reduced by the square of the distance from the source. Then the distance from the source which the radiation would be detectable is proportional to the voltage in the system. This is also what is observed. The distance between the conducting elements also plays a role. It is not clear at what distance which generates the most radiation. My guess is around 1 meter. Higher or lower distance from the optimal point would reduce the radiation.
Normally, the current (I) is also alternating too. This makes the potential energy shift in a solenoid. The solenoid is normally in an electric transformer. Radiation from a common home appliance transformer could be detected two meters away. Another home appliance which is common in Norway is an electric heater. In the heater, the current is high, and that contributes to high radiation.
Absorption
Capacitive
Principal sketch of capacitive absorption.
The result of the absorption is a small oscillating force between the conducting solids. It follows a sinus curve which is the same as the incoming stress radiation waves. The distance between the metal solids is typically 1 cm – 30 cm. The substance in the discharging medium has an effect on the efficiency of the absorption. A weak radiation could be totally absorbed with a medium good discharging medium. If the radiation is strong, one needs a good medium for a total absorption. What decides the strength of the discharging medium is the relative permittivity of the medium. A good medium could be water which has a relative permittivity of 80. Gypsum and concrete are medium good discharging mediums with a relative permittivity of 4-5. A poor medium could be air. The conducting material is normally a metal or wood.
Inductive
Principal sketch of inductive absorption.
The result of the absorption is an oscillating force perpendicular to the conducting material. The typical radius of the absorbing “ring” is between 1-5 cm. As for the capacitive, the efficiency of the absorption depends on the discharging medium. A good discharging medium has high relative permittivity. The conducting material consists of, for instance, a metal or wood.
Field crossing
If two or more different fields are crossing in a solid, there will be an absorption effect of the fields. If the fields are nearly or straight perpendicular to another, there would be none or very little absorption. This is observed with water veins. The field from the water vein is only detectable straight above the vein. In another direction, the field from the vein is crossing non-perpendicular to the directional fields.
Increased pressure
If a certain medium has a larger pressure or stress than the pressure on the source medium, there will often be an absorption. The pressure does not need to be particularly high. Typically in the area of 2 – 10 kPa. This effect can be the reason why radiation is not normally detected underneath the source. It could be the increasing pressure of the air as the distance from the earth’s surface decreases.
Movement of solids
Some solids experience a high degree of absorption if they are moved to a new position. Steel solid would normally not absorb radiation, but if the steel has been moved, it can. A curious effect is that this only lasts for a specific time period. It typically lasts for 6 to 12 hours. Another solid which experiences this effect is wood.
Traditional detection techniques
Y-rod
The Y-rod is a tree branch that is taken from a tree. The branch has to be fresh and be Y-shaped. One holds the rod with both hands. The tip of the rod has to point 90 degrees out of the body. The setup is a kind of inductive absorption. Where the Y-rod is the conducting material and the blood vessels in the body act like the discharging medium. Then one walks around. When the tip bends either up or down, then there is a water vein beneath. One drawback with this method is that it is dependent on the “sensitivity” of the person holding the rod. Quite a few in the population have this “sensitivity”. Another drawback is that the technique is only usable for detecting water veins.
Dowsing rods
With the dowsing rods, it is possible to detect a wider type of stress radiation. Here one can detect radiation from water vein, Hartmann grid and radiation from electric activities. The detection is done by holding two L-shaped rods. One in each hand. The hands are holding around the short part of the rod. The arm is bent 90 degrees so that the longest part of the rod is pointing 90 degrees out of the body. This setup is a kind of capacitive absorption. The two rods are the conducting material and the blood vessels in the body act like the discharging medium. Then one begins to walk around. When the rods are exposed to radiation, the rods will move. The movement will be either towards each other or they will repel each other. The rods are usually made of metal. The drawback with this method is the same as for the Y-rod concerning “sensitivity” of the person holding the rods.