Četvrtak, 12 prosinca, 2024
NaslovnicaWake upJe li kroz mRNA cjepivo ubačena tehnologija koja će uz pomoć 5G...

Je li kroz mRNA cjepivo ubačena tehnologija koja će uz pomoć 5G mreže stvoriti još strašniju pandemiju?

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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. 

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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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