Journal article Open Access

ELECTROMAGNETIC KEEPER OF ENERGY AND INFORMATION

Solomon Khmelnik


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{
  "publisher": "Zenodo", 
  "DOI": "10.5281/zenodo.3518396", 
  "container_title": "Canadian Journal of Pure and Applied Sciences", 
  "language": "eng", 
  "title": "ELECTROMAGNETIC KEEPER OF ENERGY AND INFORMATION", 
  "issued": {
    "date-parts": [
      [
        2019, 
        10, 
        24
      ]
    ]
  }, 
  "abstract": "<p>A well-known experiment demonstrates the preservation of the integrity of a certain structure in the absence of visible<br>\nbinding forces. Such an experiment was first described in 1842 but it still has not found a scientific explanation.<br>\nHowever, an interest in it continues unabated that is reflected in Internet publications. Based on the solution of<br>\nMaxwell&#39;s equations, this theoretical work shows that the experiment is explained by the conservation of electromagnetic<br>\nenergy inside the structure and the appearance of a standing electromagnetic wave. Based on this solution, it is shown<br>\nthat the structure can be made not only on the basis of ferromagnetics (known fact) but also in the form of a capacitor. It<br>\nis also shown that the keeper may have a different shape. It is shown further that such designs can save not only energy<br>\nbut also information. This fact provides a basis for explaining such phenomena as the mirages of the past. These<br>\nphenomena are astounding and await their rigorous scientific explanation. The article notes that mirages do not change<br>\ntheir position on the ground. It is further shown that the stability of the position of the mirage can be explained by the<br>\nfact that in the mirage area there are a standing electromagnetic wave, pulsating flow of electromagnetic energy, and<br>\npulsating electromagnetic mass. The center of mass does not change position. Therefore, the volume of the keeper can be<br>\nconsidered as the volume of the pulsating mass with a constant center of gravity. This mass is held in place by gravity<br>\nand does not interact with the material mass, i.e. cannot be shifted by air flow. This ensures a stable position of the<br>\nkeeper on the ground.</p>", 
  "author": [
    {
      "family": "Solomon Khmelnik"
    }
  ], 
  "page": "4853-4859", 
  "volume": "13, Okt 2019", 
  "version": "1", 
  "type": "article-journal", 
  "issue": "No. 3", 
  "id": "3518396"
}
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