Laser zentrum hannover pyramide


laser zentrum hannover pyramide

But reading this weeks headlines, new agers must be bouncing in their seats as a team of physicists has announced that, "under the right conditions, the Great Pyramid can concentrate electromagnetic energy in its internal chambers and under its base" according to a paper published. To explain these results, researchers conducted a multipole analysis a method that is used in physics to study the interaction between a complex object and electromagnetic field. Journal of Applied Physics ( doi:.1063/1.5026556 ). In layman's terms, the scientists applied theoretical methods normally used in the study of optics where light is scattered by nanoparticles and the electromagnetic properties are measured. . Journal of Applied Physics. (Image: itmo University, Laser, zentrum, hannover this study reveals the unusual electromagnetic properties of the Great Pyramid of Giza, and where many reporters are calling these findings an 'accident I disagree. Having tested wave distribution and magnetic energies at such a large scale will assist in our understanding of how particles and waves interact at a nano level. . Seit 2011 beschäftigt sich die ganze Produktionswelt mit dem Thema Industrie.0, begründete.-Ing. Laser, zentrum in, hannover, Germany, investigated the Great Pyramid's response to electromagnetic radiation including microwaves, radio waves and infrared, but also visible light, ultraviolet light, X-rays and gamma rays. "We wanted to find out what peculiarities of electromagnetic energy distributions can be obtained in the pyramid and environment under the condition of its strong interaction with electromagnetic waves Andrey Evlyukhin, an author of the study from itmo, told Newsweek.

By knowing the type of each multipole, it is possible to predict and explain the distribution and configuration of the scattered fields in the whole system. They are not 'accidental they are axiomatic, self-evident, and result from the size, scale and shale of the building. This value allowed them to estimate which part of the incident wave energy can be scattered or absorbed by the pyramid under resonant conditions. "Such nanoparticles can be used as a building blocks for construction of different optical devices for management of light energy at nanoscale." What is brilliant in all this, is that the most famous ancient building on planet earth has played a role in our ever-increasing. For the automotive industry of the future, load-adapted and lightweight components made from steel-aluminum mixed joints are required. What does all this mean? For example, not only do rock types effect the flow of magnetic waves, but rewe ingolstadt zuchering so does space, and it was assumed that there are no further cavities within its structure. The black rectangular position of the so-called King's Chamber. Evlyukhin told reporters that he was thrilled to have worked on the Great Pyramid of Giza which he said was "one of the most intriguing objects in history.". (LZH) has developed a laser welding process for the quick and safe joining of three-dimensional structures made of steel and aluminum. First, they estimated that resonances in the pyramid could be induced by radio waves with a length ranging from 200 m to 600.



laser zentrum hannover pyramide

(LZH together with Held Systems Deutschland GmbH, Laserline GmbH and Meyer Werft GmbH.
KG, now wants to establish robust, pure laser welding processes for steel sheet thicknesses of up to 30 millimeters.

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