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Copper or wood is much better farming tool than iron or steel.
Hidden Nature - The Startling Insights of Viktor Schauberger
@Aromaz, I think this is also the reason why copper is important in ancient civilization. They also use the same water irrigation pipe as Victor mentioned.
Hidden Nature - The Startling Insights of Viktor Schauberger
Viktor found that in the poorer southern part of the country, populated largely by people of Turkish origin, the fields were tilled with traditional wooden ploughs pulled usually by teams of women. These fields remained very fertile and productive, with high crop quality. In the north, however, the fields were ploughed with tractor-drawn steel ploughs. As he was aware of the destructive effect that steel and iron have on water in the soil, Schauberger attributed the disappearance of the water and the poorer yields to the use of the steel ploughs and the faster ploughing in the north. This knowledge led him to invent a new kind of plough and to do a number of experiments on improving soil fertility. Before going into this, however, we need to understand more about electromagnetism.
Two kinds of electromagnetism
Viktor already recognized that in Nature there are two types of electromagnetism, just as there are two kinds of temperature change. The one that encourages growth and stimulates energies in all organisms he called biomagnetism or bioelectricity; the elements connected with this form of electromagnetism (diamagnetism) are copper, bismuth and gold. The other, ferromagnetism, usually just called magnetism, when combined with an electric current, is the form that is commonly used in electric motors and dynamos for the generation of electricity. In Nature this form of energy is used to break down substances. In water's case it disintegrates the water particles into its constituent atoms. The elements of ferromagnetism are iron, nickel and cobalt.
Viktor observed how steel ploughs damage the soil. Drawn rapidly through the ground, the hard steel ploughshares generate minute ferro-electric and ferro-magnetic currents that decompose the nutrient-laden water molecules in the soil, in a manner similar to electrolysis, resulting in water loss. The surface tension of the water molecule is reduced, the soil loses its energy potential and its nutritive subtle energies are dissipated. This not only destroys the soil's subtler energies, but also converts the nutritive elements or removes them from the mature water molecule. The residual water becomes pure juvenile water that has no nutritive value.
Schauberger started to experiment with copper, initially as a plating of thick copper over a conventional steel plough. The destructive ferro-electromagnetic effects of the steel plough were thus replaced by beneficial bioelectromagnetic ionization, enhancing growth and soil fertility. Because of the remarkable results it achieved, this came to be known as the 'Golden Plough.'
Field trials were conducted near Salzburg in 1948 and 1949 to compare the results of the new plough with the conventional steel plough. Fields strips were ploughed, alternately using steel and copper-plated ploughs. When the grain came up the differences between the alternate strips was quite apparent. Where the copperplated plough had been used the water content and the nutrient energies of the soil had been increased, and the corn stood about 6-8 inches higher with a much fuller head. Some yields in the strips ploughed with copper-plated implements increased by up to 40% compared to the control strips where conventional steel ploughs were used. As all other factors of soil chemistry, orientation, furrow width, etc., were identical, the difference in yield was clearly due to the use of the copper plated plough.
With two crops there were spectacular results. 15cm long ears of rye produced an average of 104 grains each (Fig. 16.1). In another experiment in Tyrolean Kitzbuhel potatoes weighing nearly half a kilo, containing over twenty eyes' (the source of next year's crop), were produced (Fig. 16.2).
Two kinds of electromagnetism
Viktor already recognized that in Nature there are two types of electromagnetism, just as there are two kinds of temperature change. The one that encourages growth and stimulates energies in all organisms he called biomagnetism or bioelectricity; the elements connected with this form of electromagnetism (diamagnetism) are copper, bismuth and gold. The other, ferromagnetism, usually just called magnetism, when combined with an electric current, is the form that is commonly used in electric motors and dynamos for the generation of electricity. In Nature this form of energy is used to break down substances. In water's case it disintegrates the water particles into its constituent atoms. The elements of ferromagnetism are iron, nickel and cobalt.
Viktor observed how steel ploughs damage the soil. Drawn rapidly through the ground, the hard steel ploughshares generate minute ferro-electric and ferro-magnetic currents that decompose the nutrient-laden water molecules in the soil, in a manner similar to electrolysis, resulting in water loss. The surface tension of the water molecule is reduced, the soil loses its energy potential and its nutritive subtle energies are dissipated. This not only destroys the soil's subtler energies, but also converts the nutritive elements or removes them from the mature water molecule. The residual water becomes pure juvenile water that has no nutritive value.
Schauberger started to experiment with copper, initially as a plating of thick copper over a conventional steel plough. The destructive ferro-electromagnetic effects of the steel plough were thus replaced by beneficial bioelectromagnetic ionization, enhancing growth and soil fertility. Because of the remarkable results it achieved, this came to be known as the 'Golden Plough.'
Field trials were conducted near Salzburg in 1948 and 1949 to compare the results of the new plough with the conventional steel plough. Fields strips were ploughed, alternately using steel and copper-plated ploughs. When the grain came up the differences between the alternate strips was quite apparent. Where the copperplated plough had been used the water content and the nutrient energies of the soil had been increased, and the corn stood about 6-8 inches higher with a much fuller head. Some yields in the strips ploughed with copper-plated implements increased by up to 40% compared to the control strips where conventional steel ploughs were used. As all other factors of soil chemistry, orientation, furrow width, etc., were identical, the difference in yield was clearly due to the use of the copper plated plough.
With two crops there were spectacular results. 15cm long ears of rye produced an average of 104 grains each (Fig. 16.1). In another experiment in Tyrolean Kitzbuhel potatoes weighing nearly half a kilo, containing over twenty eyes' (the source of next year's crop), were produced (Fig. 16.2).
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