Pyramid of Cheops can focus the electromagnetic energy

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The Cheops pyramid can concentrate electromagnetic energy in the internal chambers and concentrate it in the space under its base. This conclusion was reached by scientists who worked on the pyramid with radio waves to study its electromagnetic resonance response. The study is published in the Journal of Applied Physics, a brief rewrite indicator on.

Pyramid of Cheops. Photo: ru.wikipedia.org "border =" 0 "data-x-height =" 682 "data-x-src =" https://img.tyt.by/n/04/5/piramida_kheopsa.jpg "data -x-width = "1024" data-y-height = "479" data-y-src = "https://img.tyt.by/720x720s/n/04/5/piramida_kheopsa.jpg" data-y- width = "720" data-zoom = "1" height = "480" hspace = "0" src = "https://img.tyt.by/720x720s/n/04/5/piramida_kheopsa.jpg" title = " Pyramid of Cheops. Photo: ru.wikipedia.org "vspace =" 0 "width =" 720 "/> <figcaption> Pyramid of Cheops. Photo: en.wikipedia.org </figcaption></figure> <p> Physicists have decided to study how the pyramid will interact with the corresponding electromagnetic waves, ie resonance, length (from 200 to 600 m). Calculations have shown that in such a state of resonance, the pyramid is able to focus the electromagnetic field and the energy density in the internal chambers of the pyramid can be increased significantly </p> <p> ] A group of scientists from the ITMO University and the Hannover Laser Center (Germany) modeled the electromagnetic response of the pyramid and calculated the effective cross section – the fraction of the energy of the fall "Given the great interest in the Egyptian pyramids, we decided to consider the Great Pyramid as a particle broadcasting resonant radio waves," says one of the article's authors, Andrei Yevlyukhin. – Due to the lack of information on the physical properties of the pyramid, we had to use certain badumptions. For example, we believed that there were no unknown cavities, and the material of which it is made is evenly distributed in its volume and possesses the properties of ordinary limestone. "</p> <figure clbad= The propagation of electromagnetic waves within the pyramid of Cheops 400 meters.) A black rectangle shows the position of the so-called King's Chamber Source: ITMO University, Laser Zentrum Hannover [19659006] Propagation of electromagnetic waves inside the pyramid of Cheops with a different radio wave length (from 200 to 400 meters). A black rectangle shows the position of the so-called Chamber of the King Source: ITMO University, Laser Zentrum Hannover </figcaption></figure> <p> Physicists were interested in the pyramid of Cheops during the study of the characteristics of light interaction with dielectric nanoparticles.The way the nanoparticles light differs depending on their size, shape and the refractive index of the material they are made in. By varying these parameters, we can determine the resonant modes of diffusion and use them for elopper luminous flux control devices at the nanoscale. </p> <p> Scientists now plan to use the results obtained to recreate similar effects at the nanoscale. "By selecting a material with appropriate electromagnetic properties, it is possible to obtain pyramidal-shaped nanoparticles promising a practical application in the development of nanosensors and elements effective for solar energy," explains Polina Captainova, co-author of the University of ITMO. why the Egyptian pyramids are so smooth </p> </blockquote> </div> <p><script type=! function (f, b, e, v, n, t, s) {if (f.fbq) returns; n = f.fbq = function () {n.callMethod? n .callMethod.apply (n, arguments): n.queue.push (arguments)}; if (! f._fbq) f._fbq = n; n.push = n; n.loaded =! 0; n.version = "2.0"; n.queue = []; t = b.createElement (e); t.async =! 0; t.src = v; s = b.getElementsByTagName (e) [0]; s.parentNode.insertBefore (t, s)} (window, document, "script", "https://connect.facebook.net/en_US/fbevents.js"); fbq ("init", "" Fbq ("track", "PageView"); fbq ("track", "ViewContent"); fbq ("track", "Search"); [ad_2]
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