Weird science – fact or fiction? Nanobot applications in tech and health

There are many people warning us that there are dastardly plans afoot far beyond the obvious poisons contained in the badly manufactured modified mRNA and viral vector C19 injections.

After watching this video featuring Dr Ana Mihalcea who has shown the presence of self-assembling nanobots in the blood of both the vaxxed and unvaxxed, my mind wandered to the question “what could such nanobots do?”. Dr Mihalcea thinks that the nanobots are programmable to turn anyone into the walking dead – you know, like Biden.

Here’s the link to the video embedded in the article:

Demons of the mRNA Vaxx – Ana Mihalcea, MD, PhD - Forbidden Knowledge TV

Dr Mihalcea states “She suggests that, since Big Pharma is hard to sue, that we could work our way up by suing healthcare workers for Pre-meditated Murder when they inject us with this known bioweapon and that we should similarly sue any Chemtrail pilots we may happen to find.”

Which makes sense. Just because the government gives you a gun and tells you to shoot the baby, does not mean you should or that you should not be punished for doing so. All about wilful negligence or intent, I suppose.

Anyway, here’s where my thoughts went.

First how big is the spike protein?

Lt’s start with a broad perspective, from here:

Density estimation of SARS-CoV2 spike proteins using super pixels segmentation technique - PMC (nih.gov)

“Spiky proteins are used to inactivate viruses and prevent infections, and nanoparticles with core lengths of around 120 nm and diameters of approximately 30 nm are created.”

That may not have aged well!

And from here: Coronavirus spike protein - Wikipedia

“The spike protein is very large, often 1200 to 1400 amino acid residues long; it is 1273 residues in SARS-CoV-2. It is a single-pass transmembrane protein with a short C-terminal tail on the interior of the virus, a transmembrane helix, and a large N-terminal ectodomain exposed on the virus exterior.”

Ok, so in nanometers, the spike protein of the virus that, apparently, the modified mRNA and viral vector injections cause the body to “manufacture” indefinitely is probably around 120 x 30 nanometres (nm).

Well, let’s check out “the speed of science”.

Here’s a few more reference points:

From here: SM_Lesson2Student.pdf (sri.com)

A human cell is around 10,000 nanometers.

Back to the speed of science. From ten years ago, here:

World's smallest nanomotor could power cell-sized nanobots for drug delivery (newatlas.com)

 “Scientists at the Cockrell School of Engineering at the University of Texas have built and tested what appears to be the world's smallest, fastest, and longest-running nanomotor yet – so small that it could fit inside a single cell. The advance could be used to power nanobots that would deliver specific drugs to individual living cells inside the human body.

From here in 2019:

The State of Nanorobotics in Medicine - IEEE Pulse (embs.org)

“Most nanotechnology for medicine entails using small particles to carry materials and deliver them to or within cells. Often this delivery happens by chance; controlled delivery efforts, however, aim to develop very simple robotic systems made up of a payload and shell that can be directed to a specific site. These devices are guided by external forces—such as electromagnetic fields—or through fabrication techniques that take advantage of chemical or biological reactions.”

Th infusion of nanobots looks like it is the intention, not an accident!

We had this in 2020:

The smallest microelectronic robot in the world (nanowerk.com)

“Nature Electronics ("A flexible microsystem capable of controlled motion and actuation by wireless power transfer") is reporting on the development of the smallest microelectronic robot in the world, which is driven and controlled by a twin-jet-engine (see Figure 1).

The microelectronic robot is 0.8 mm long, 0.8 mm wide and 0.14 mm tall.”

Wow, that is small! A nanobot that is 0.8 x 0.8 x 0.14 nm! 

We had this 3 years ago from the EU:

Q&A: Nanobots could explore human cells – but their size is an engineering challenge | Research and Innovation (europa.eu)

“Scientists are developing virus-sized robots that could defuse blood clots, explore human cells or even scrub water of impurities.”

So, the nanobots are tiny and getting tinier and maybe powered by biological/chemical reactions in the body.

That does not give much of a clue as to their purpose or how they can transmit and receive information.

Maybe they need to be a little bigger to do that or maybe they can piggyback a micro-processor. Check this out, from 3 years ago:

IBM’s 2 nm Chip Dazzles with 50 Billion Transistors in Tiny Package - News (allaboutcircuits.com)

“In an announcement clearly intended to draw in engineers and laymen alike, IBM heralds the arrival of tiny 2 nm chips with 50 billion transistors apiece and the heir apparent to the age of Finest.”

“And yet, here we sit at 50 billion transistors on a chip the size of a fingernail.”

That last sentence is not so impressive! I think a fingernail grows about one nanometer a second! IBM is also targeting 5G and the mobile and auto markets, not health.

Still…

Onwards!!!

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