we are here to expose and end the shitstem, not participate in and support it
what gives you that impression?
How is God separate from the waters, or from anything else?
perhaps hannity was given a hunter laptop HD copy, as were many others. All chose not to discuss, now all are implicated in collusion at the least, treason on the other side of the scale.
Evidence of money laundering, corruption, potentially human/organ trafficking, foreign influence and loyalties, insider trading, bribery, contracted murder, media and intel involvement, lists of corrupted/compromised officials, etcโฆ
no. it is yours/you. Just as Mozart is always Mozart, regardless of whether he is alive, who plays it, or if it is recorded. There is no separation between creator and creation. Just as your seed is of your tree.
you are not alone
>>17613210 (pb)
"if there were real enemies:
Antarctica would be exposed
the Moon would be exposed
JFK would be exposed
9/11 would be exposed
the FED/BIS shitstem would be exposed
epstein/maxwell lists and video evidence would be exposed
playboy mansion would be exposed
nygard/human harvesting would be exposed
vegas, monacco, macau would be exposed
etcโฆ"
>AI And AI-controlled suicide drones
Nano-drone swarms under AI control
Prey is the thirteenth novel by Michael Crichton under his own name and the twenty-third overall. It was first published in November 2002, making it his first novel of the twenty-first century. An excerpt was first published in the JanuaryโFebruary 2003 issue of Seed magazine. Prey brings together themes from two earlier Crichton best-selling novels, Jurassic Park and The Andromeda Strain and serves as a cautionary tale about developments in science and technology, in particular, nanotechnology, genetic engineering, and distributed artificial intelligence.
https://en.wikipedia.org/wiki/Prey_(novel)
get there? they are already disclosed- self assembling nano tech in biological wet-ware applications, 'smart dust', etc. imagine what remains classified.
>self assembling nano tech
from 2014
RNA self-assembly and RNA nanotechnology
https://pubmed.ncbi.nlm.nih.gov/24856178/
Abstract
CONSPECTUS: Nanotechnology's central goal involves the direct control of matter at the molecular nanometer scale to build nanofactories, nanomachines, and other devices for potential applications including electronics, alternative fuels, and medicine. In this regard, the nascent use of nucleic acids as a material to coordinate the precise arrangements of specific molecules marked an important milestone in the relatively recent history of nanotechnology. While DNA served as the pioneer building material in nucleic acid nanotechnology, RNA continues to emerge as viable alternative material with its own distinct advantages for nanoconstruction. Several complementary assembly strategies have been used to build a diverse set of RNA nanostructures having unique structural attributes and the ability to self-assemble in a highly programmable and controlled manner. Of the different strategies, the architectonics approach uniquely endeavors to understand integrated structural RNA architectures through the arrangement of their characteristic structural building blocks. Viewed through this lens, it becomes apparent that nature routinely uses thermodynamically stable, recurrent modular motifs from natural RNA molecules to generate unique and more complex programmable structures. With the design principles found in natural structures, a number of synthetic RNAs have been constructed. The synthetic nanostructures constructed to date have provided, in addition to affording essential insights into RNA design, important platforms to characterize and validate the structural self-folding and assembly properties of RNA modules or building blocks. Furthermore, RNA nanoparticles have shown great promise for applications in nanomedicine and RNA-based therapeutics. Nevertheless, the synthetic RNA architectures achieved thus far consist largely of static, rigid particles that are still far from matching the structural and functional complexity of natural responsive structural elements such as the ribosome, large ribozymes, and riboswitches. Thus, the next step in synthetic RNA design will involve new ways to implement these same types of dynamic and responsive architectures into nanostructures functioning as real nanomachines in and outside the cell. RNA nanotechnology will likely garner broader utility and influence with a greater focus on the interplay between thermodynamic and kinetic influences on RNA self-assembly and using natural RNAs as guiding principles.
we do now.
SADS
5.4B worldwide with at least one injection of self-assembling nanotech. Many died, the rest? Puppets on standby via nano tech wetware
https://patents.google.com/patent/US9732337B2/en?q=rna self-assembly&oq=rna self-assembly
RNA nanoparticles and nanotubes
Abstract
The instant invention provides polyvalent RNA nanoparticles comprising RNA motifs as building blocks that can form RNA nanotubes. The polyvalent RNA nanoparticles are suitable for therapeutic or diagnostic use in a number of diseases or disorders.
https://en.wikipedia.org/wiki/Self-assembly_of_nanoparticles