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who will have to be administrators of these people, that is, in total about 13,200 people, if there is one leader for every ten.

      And if you describe the result, you can come to the following picture.

      In the fenced area, where, by the way, paths had already appeared, seedlings, trees were planted, a fence and other details were put up, at first there were 6 buildings of the linear accelerator connected to each other, therefore, they looked like one building 20 meters long and 84 meters wide, then 3 interconnected buildings were already built behind it, also 20 meters long, and when all 6 buildings in a row are completed, 120 meters wide and finally, another identical row with the same width and length. Behind him was the conference hall itself.

      The entire hall inside had 4 floors connected to each other, while 2 of them were submerged underground, and 2 went upstairs. This hall was 90 meters wide and slightly smaller than the previous row of buildings, and 50 meters long. That is, it had an area of 4500 square meters, while if the stage occupied 1/8 of the total area or 562.5 square meters, then 3937.5 square meters remained, that is, 1968 people could already fit on the first floor, and almost as many on the subsequent floors, in total, 7875 people fit in this hall, which was simply stunning given the height of the hall of about 12 meters!

      Both existing small printers were used to build this hall. With the same wall thickness of 1 m and a floor height of the same meter and a layer width of 10 cm, it was initially necessary to pass over an area of 450 km, while moving the structure. Further, for walls 50 meters long and as much as 20 meters high, 200 km are spent, and for walls 90 meters long, 360 km are spent, and 450 km for the roof. For floors with an area of 3937.5 square meters or with a width of 90 meters and a length of 43.75, it will be necessary to spend 393.75 km for one floor or 1181.25 km for 3 floors, for a total of 2641.25 kilometers.

      As a result, it would take 15 hours 40 minutes and 30.27 seconds for one printer to create this hall, but since 2 such devices worked, the building was completed in 7 hours 50 minutes and 15.13 seconds.

      So far the work has progressed at such a pace that the first model was ready at 5 o'clock in the morning, the second at 8 o'clock in the morning, then the large model was completed at 12 o'clock in the afternoon, and all the small buildings were already built at 10 o'clock in the afternoon, since 2 printers were working together . Then they began to create a conference room and by six o'clock in the evening they had completed. By that time, three large buildings had already been built and more were under construction. Then, by 3 pm, the second “cube” was ready, which started work when the first one completed 3 buildings, as already mentioned, and together with it by 5 pm they completed all 6 large buildings for cyclotrons.

      Now there were 6 more of the same buildings for energy generation, and then there were small works. Furnishing, repair, decoration of the previous buildings were in full swing. In a record 2 hours, the third large printer was already ready, which, together with the existing two, was able to complete the remaining 6 buildings in 2 hours. Therefore, by 7 pm, the entire building with 18 blocks and halls was completely ready, and only work on decorating the inside continued.

      The roofs were also already covered, and thanks to the creation of only 5 printers instead of 18, the count was able to save a little less than half of the originally named budget, for the construction of all equipment and buildings, respectively. Finally, the case was completed with a huge gain of 11 hours from the named time. They wanted to finish the construction at 6 am on May 11, but it turned out that they had already finished at 7 pm on May 10, it was a victory!

      And just a titanic work was done, epoch-making!

      The purpose of this description was to convey the basic idea that everything is possible, even such an amazing task as building an entire power plant in less than 2 days, albeit with the involvement of a huge amount of a wide variety of resources, as well as using the latest 3D building printing technology, with a stop at the stage of completing the printing of the first floor and the installation of the structure, on top of which the printing of the next floor will continue in parallel.

      References

      1. Architectural structures. In 3 books. Book 1. Architectural designs of low-rise residential buildings; Architecture-S – Moscow, 2006. – 248 p.

      2. Bayer V. E. Architectural materials science; Architecture-S – Moscow, 2006. – 264 p.

      3. Belokonev E. N., Abukhanov A. Z., Belokoneva T. M., Chistyakov A. A. Fundamentals of architecture of buildings and structures; Phoenix – Moscow, 2009. – 336 p.

      4. Boitemirov F. A., Golovina V. M., Ulitskaya E. M. Calculation of structures made of wood and plastic; Academy – Moscow, 2007. – 160 p.

      5. Giyasov Adkham Planar and spatial structures of building coverings; Publishing House of the Association of Construction Universities – Moscow, 2008. – 144 p.

      6. Grebennik R. A., Grebennik V. R. Installation of steel and reinforced concrete building structures; Academy – Moscow, 2009. – 288 p.

      7. I. V. Grigoriev, V. I. Prokop’ev, and Yu. V. Tverdy, Deformation, Stability, and Vibrations of Shell Structures; Publishing House of the Association of Construction Universities – Moscow, 2007. – 208 p.

      8. Devyataeva GV Technology of reconstruction and modernization of buildings. Tutorial; Infra-M -, 2003. – 256 p.

      9. Iodo I. A., Potaev G. A. Urban planning and territorial planning; Phoenix – Moscow, 2008. – 288 p.

      10. Kashkina L. V. Fundamentals of urban planning; Vlados – Moscow, 2005. – 248 p.

      11. Mailyan L. R., Lazarev A. G., Seferov G. G., Batienkov V. T. Structures of buildings and structures with static elements; Infra-M -, 2010. – 688 p.

      12. Mailyan R. L., Mailyan D. R., Veselev Yu. A. Building structures; Phoenix – Moscow, 2010. – 880 p.

      13. Maklakova T. G. Architectural and constructive design of buildings. Volume 1. Residential buildings; Architecture-S – Moscow, 2010. – 328 p.

      14. Mironov V. V., Mironov D. V., Chikishev V. M., Shapoval A. F. Use of soft geosynthetic shell structures in construction; Publishing House of the Association of Construction Universities – Moscow, 2005. – 573 p.

      15. Mityugov E. A. Course of metal structures; Publishing House of the Association of Construction Universities – Moscow, 2008. – 120 p.

      16. Nikulin A. D., Shmitko E. I., Zuev B. M. Design of enterprises of building materials, products and structures; Prospect Nauki – Moscow, 2006. – 352 p.

      17. Ponamarev A. B. Reconstruction of the underground space; Publishing House of the Association of Construction Universities – Moscow, 2006. – 232 p.

      USING PHOTON TUNNELING TECHNOLOGY FOR DIRECT TELEPORTATION

      Aliev Ibratjon Khatamovich

      2nd year student of the Faculty of Mathematics and Informatics, Fergana State University

      Fergana State University, Fergana, Uzbekistan

      Аннотация. В работе описан метод, являющийся аналогом квантовой телепортации при перемещении определённых объектов с указанием некоторых парадоксом. При этом большое внимание уделяется общему представлению процесса, а также приводятся математические закономерности. Данный метод также является своего рода решением вопроса этической проблемы классической квантовой телепортации.

      Ключевые слова: фотонное

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