Scientific Research
Scientific Research
Impacts of bioenergy on calcium carbonate
HEALING WITH BIOENERGY ACCORDING TO THE ZDENKO DOMANČIĆ METHOD
Prof. Dr. Radovan Starc
The impacts of bioenergy on matter
Zdenko Domančić has studied the impacts of bioenergy on matter in the USA and at the Ben Gurion University in Israel. He was visited by guests from the American Universities of Stanford and Colombia and from the Ben Gurion University in Israel.
In 2003, the Jozef Stefan Research Institute in Ljubljana conducted a study on the physical effects of bioenergy on calcium carbonate crystals (calcite) in aqueous solution, in a silicon tube. The solution was affected by bioenergy and afterwards the results were observed under the electron microscope, analysed and documented by Dr. Anton Jeglić, professor at the Faculty of Electrical Engineering at the University of Ljubljana and Prof. Dr. Spomenka Kobe from the Jozef Stefan Institute in Ljubljana. The electron microscope (SEM) is distinguished by a high resolution, which is at least one hundred times higher than the resolution of an optical microscope. If we magnify an examined structure under an ordinary microscope a thousand times, we can magnify it at least 100.000 times under an electron microscope. Electron microscopes recognise structures of 0,1-0,2nm (1 nm, 1 nanometre is a billionth of a metre, 10-9m or 1 millionth of a millimetre). Besides their high resolution, electron microscopes are distinguished by a high depth of field. Thus, they are destined for three dimensional observations of surfaces and analysis of structures, which is perfectly illustrated in the pictures.
Under the influence of Domančić‘s beam of creative bioenergy, which can be called „un fascio di bioenergia creativa” ordinary crystals change and assume “living” shapes: flowers, roses, laeves etc. It is fascinating what a creative force bioenergy exerts on dead crystals. Simple, square structures have come to life under the influence of bioenergy. On the surfaces of the leaves of different shapes, you can see even the leaf blades (lamina) and the smallest details, as if you were looking at a natural leaf of a plant.
When analizing the shapes of the animated crystals, the size of the crystals must be taken into account. The actual size is about 3µm (1 µm is a thousandth of a millimetre 0,001 mm or a millionth of a meter). One might wonder what other shapes or figures Zdenko Domančić could create or enliven with his creative bioenergy if he could adjust the obtained changes on the screen and receive immediate feedback. Perhaps he could tap into other creative channels and create from a simple calcium carbonate shapes resembling animals, humans… Imagination knows no limits.
Why did the scientist choose crystals to study the impacts of bioenergy on matter? Because a crystal is a living system in the growth phase, very sensitive to new information. Research has proven that Domančić‘s bioenergy is both energy and information, hence the statement that many sensed since a long time: bioenergy is informed energy. Scientist are very intrigued by the creative abilities of bioenergy, for only living information or life-related information can give crystals such vivid shapes.
Other impacts of bioenergy on matter are also studied at the Jožef Stefan Institute in Ljubljana. Prof. Dr. A. Jeglic and Prof. Dr. S. Kobe stated that the electrical conductivity of calcium carbonate in aqueous solution decreases significantly under the influence of bioenergy. They also discovered that, for example, customary bottled water changes its structural properties by as much as 51% under the influence of bioenergy.
The slovenian Institute “Jožef Stefan”(IJS), is the largest research institute in Slovenia. It employs over 930 specialists in various fields. The most important areas of research are physics, chemistry, molecular biology, biotechnology, nanotechnology, information technology, reactor physics, nuclear engineering, energy and enviromental protection. The mission of the Józef Stefan Institute is to acquire and disseminate knowledge in the fields of natural science and technology for the benefit of the general public through education, research, teaching and development of advanced technologies at the highest international level of excellence.
translation: Christoph Mencel
All rights reserved. Any selective or complete quotation of text, copying or use only with sole permission. (Martyna Fon Zvegelj)
Impacts of bioenergy on calcium carbonate
TREATMENT WITH BIOENERGY ACCORDING TO THE ZDENKO DOMANČIĆ METHOD
Prof. Dr. Radovan Starc
The impacts of bioenergy on matter
Zdenko Domančić has studied the impacts of bioenergy on matter in the USA and at the Ben Gurion University in Israel. He was visited by guests from the American Universities of Stanford and Colombia and from the Ben Gurion University in Israel.
In 2003, the Jozef Stefan Research Institute in Ljubljana conducted a study on the physical effects of bioenergy on calcium carbonate crystals (calcite) in aqueous solution, in a silicon tube. The solution was affected by bioenergy and afterwards the results were observed under the electron microscope, analysed and documented by Dr. Anton Jeglić, professor at the Faculty of Electrical Engineering at the University of Ljubljana and Prof. Dr. Spomenka Kobe from the Jozef Stefan Institute in Ljubljana. The electron microscope (SEM) is distinguished by a high resolution, which is at least one hundred times higher than the resolution of an optical microscope. If we magnify an examined structure under an ordinary microscope a thousand times, we can magnify it at least 100.000 times under an electron microscope. Electron microscopes recognise structures of 0,1-0,2nm (1 nm, 1 nanometre is a billionth of a metre, 10-9m or 1 millionth of a millimetre). Besides their high resolution, electron microscopes are distinguished by a high depth of field. Thus, they are destined for three dimensional observations of surfaces and analysis of structures, which is perfectly illustrated in the pictures.
Under the influence of Domančić‘s bundle of creative bioenergy, which can be called „un fascio di bioenergia creativa” ordinary crystals change and assume “living” shapes: flowers, roses, laeves etc. It is fascinating what a creative force bioenergy exerts on dead crystals. Simple, square structures have come to life under the influence of bioenergy. On the surfaces of the leaves of different shapes, you can see even the leaf blades (lamina) and the smallest details, as if you were looking at a natural leaf of a plant.
When analizing the shapes of the animated crystals, the size of the crystals must be taken into account. The actual size is about 3µm (1 µm is a thousandth of a millimetre 0,001 mm or a millionth of a meter). One might wonder what other shapes or figures Zdenko Domančić could create or enliven with his creative bioenergy if he could adjust the obtained changes on the screen and receive immediate feedback. Perhaps he could tap into other creative channels and create from a simple calcium carbonate shapes resembling animals, humans… Imagination knows no limits.
Why did the scientist choose crystals to study the impacts of bioenergy on matter? Because a crystal is a living system in the growth phase, very sensitive to new information. Research has proven that Domančić‘s bioenergy is both energy and information, hence the statement that many sensed since a long time: bioenergy is informed energy. Scientist are very intrigued by the creative abilities of bioenergy, for only living information or life-related information can give crystals such vivid shapes.
Other impacts of bioenergy on matter are also studied at the Jožef Stefan Institute in Ljubljana. Prof. Dr. A. Jeglic and Prof. Dr. S. Kobe stated that the electrical conductivity of calcium carbonate in aqueous solution decreases significantly under the influence of bioenergy. They also discovered that, for example, customary bottled water changes its structural properties by as much as 51% under the influence of bioenergy.
The slovenian Institute “Jožef Stefan”(IJS), is the largest research institute in Slovenia. It employs over 930 specialists in various fields. The most important areas of research are physics, chemistry, molecular biology, biotechnology, nanotechnology, information technology, reactor physics, nuclear engineering, energy and enviromental protection. The mission of the Józef Stefan Institute is to acquire and disseminate knowledge in the fields of natural science and technology for the benefit of the general public through education, research, teaching and development of advanced technologies at the highest international level of excellence.
translation: Christoph Mencel
All rights reserved. Any selective or complete quotation of text, copying or use only with sole permission. (Martyna Fon Zvegelj)