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Zombi apokalipsa
U svom intervjuu s Jeffreyom Pratherom, odvjetnik Todd Callender navodi kako vjeruje da je u ljude kojima je ubrizgana mRNA “cjepivo” zapravo instalirana nanotehnologija s himeričnim virusima koji mogu uključivati elemente Marburg virusa. Prema Callenderu, emitiranje s 5G staničnih tornjeva na 18 MHz, za određeno trajanje i slijed, prouzročit će pucanje zahvaćenih stanica, oslobađajući Marburg u krvi onih koji su primili injekcije mRNA.
To bi odmah pokrenulo pandemiju Marburga, čiji simptomi nisu nimalo lijepi, a uključuju krvarenje iz svih tjelesnih otvora, kardiovaskularne probleme, napadaje i još mnogo toga. Neki od simptoma mogli bi doprinijeti da ljudi počnu nalikovati i ponašati se kao “zombiji”, kako ih opisuje pop kultura, a što uključuje gubitak kognitivnih funkcija, agresija, zbunjenost i ekstremne promjene u izgledu kože i očiju.
Callender tvrdi kako nije slučajnost da je CDC prije desetak godina izradio dokumente upozorenja o “zombi apokalipsi”, a od tada naovamo pojavila su se i slična upozorenja o zombi apokalipsi u pogledu servisnih dokumenata tvrtki poput Amazona.
Upotreba vanjskih signala za kontrolu neuralnih implantata pomoću nanotehnologije dobro je potkrijepljena patentima i medicinskom literaturom
Kritičari će reći da je sve ovo više nalikuje znanstvenoj fantastici, ali distopijski trenutak u kojem živimo, s ekstremnom cenzurom, orvelovskom globalnom zavjerom koja pokušava istrijebiti ljudsku rasu, usponom robota i masovnim ubrizgavanjem milijardi ljudi nanotehnologijom, ne daje im puno za pravo.
Moderna medicinska znanost provela je mnoge eksperimente o korištenju vanjskih elektromagnetskih polja za kontrolu neuroloških implantata kod sisavaca. O jednom takvom istraživanju, koje uključuje nanočestice “Magneto” pisali smo prije otprilike godinu dana.
Također, pogledaju li se podaci o brojnim patentima dr. Charlesa Liebera (dolje je impresivan popis svih patenata), koji se bave nanostrukturnim neurološkim implantatima sa samosastavljajućim sklopovima koji se mogu povezati s ljudskom biologijom, situacija nimalo više ne nalikuje na znanstvenu fantastiku.
Popis patenata (US patent office USPTO): 10,436,747 Nanopore sensing by local electrical potential measurement; 10,435,817 Controlled growth of nanoscale wires; 10,369,255 Scaffolds comprising nanoelectronic components for cells, tissues, and other applications; 10,355,229 Methods and systems for scaffolds comprising nanoelectronic components; 10,119,955 High-resolution molecular sensor; 10,049,871 Anisotropic deposition in nanoscale wires; 9,903,862 Nanosensors and related technologies; 9,786,850 Methods and systems for scaffolds comprising nanoelectronic components; 9,702,849 Nanopore sensing by local electrical potential measurement; 9,638,717 Nanoscale sensors for intracellular and other applications; 9,595,685 Nanoscale wires, nanoscale wire FET devices, and nanotube-electronic hybrid devices for sensing and other applications; 9,541,522 Nanoscale field-effect transistors for biomolecular sensors and other applications; 9,535,063 High-sensitivity nanoscale wire sensors; 9,457,128 Scaffolds comprising nanoelectronic components for cells, tissues, and other applications; 9,297,796 Bent nanowires and related probing of species; 9,252,214 Apparatus, method and computer program product providing radial addressing of nanowires; 9,102,521 Nanosensors and related technologies; 9,029,836 Controlled synthesis of monolithically-integrated graphene structure; 8,883,568 Method providing radial addressing of nanowires; 8,698,481 High-resolution molecular sensor; 8,586,131 Liquid films containing nanostructured materials; 8,575,663 High-sensitivity nanoscale wire sensors; 8,471,298 Nanoscopic wire-based devices and arrays; 8,399,339 Nanosensors; 8,232,584 Nanoscale sensors; 8,178,907 Nanoscopic wire-based electrical crossbar memory-devices and arrays; 8,154,002 Nanoscale wire-based data storage; 8,153,470 Doped elongated semiconductors, growing such semiconductors, devices including such semiconductors, and fabricating such devices; 8,072,005 Apparatus, method and computer program product providing radial addressing of nanowires; 8,058,640 Branched nanoscale wires; 7,956,427 Nanosensors; 7,918,935 Transition metal oxide nanowires; 7,915,151 Doped elongated semiconductors, growing such semiconductors, devices including such semiconductors and fabricating such devices; 7,911,009 Nanosensors; 7,858,965 Nanowire heterostructures; 7,772,543 System and method for processing nanowires with holographic optical tweezers; 7,666,708 Doped elongated semiconductors, growing such semiconductors, devices including such semiconductors, and fabricating such devices; 7,619,290 Nanosensors; 7,595,260 Doped elongated semiconductors, growing such semiconductors, devices including such semiconductors, and fabricating such devices; 7,500,213 Array-based architecture for molecular electronics; 7,476,596 Doped elongated semiconductors, growing such semiconductors, devices including such semiconductors, and fabricating such devices; 7,399,691 Methods of forming nanoscopic wire-based devices and arrays; 7,385,267 Nanosensors; 7,301,199 Nanoscale wires and related devices; 7,274,208 Nanoscale wire-based sublithographic programmable logic arrays; 7,256,466 Nanosensors; 7,254,151 Nanoscale coherent optical components; 7,211,464 Doped elongated semiconductors, growing such semiconductors, devices including such semiconductors and fabricating such devices; 7,172,953 Methods of forming nanoscopic wire-based devices and arrays
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