Microchips & Nanochips
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Did you consent to? There is much talk about nanoparticles in vaccines, dentistry, anesthesia, pharmaceutical medications and food. I would like to explain a little regarding this technology. I will expand the knowledge in the comments section and be happy to answer questions.
Some nanoparticles, if they're based on certain metals, have the full capabilty to interact with the hydrogen peroxide that is present in your EVERY cell, and convert it to a hydroxyl radical, which enterS the nucleus and then YES, you potentially have DNA damage. This is basic science.
How is nanotechnology used in vaccination?
Along with the remedial effects of nanotechnology, nanoparticles are claimed to be used to identify immune system related ailments and determine vaccines and new agents/drugs. However this technology is capable of doing so much more, it can be for good, bad and the real ugly.
What is the difference between microchip and nano chip? A microchip is in glass and puts off an RFID. And a nano chip is small, has two wires that come in contact with the bodily fluid to power up the chip.
A microchip and a nanochip have some key differences:
Microchips are typically made of silicon and are relatively larger, with dimensions in the millimeter range. They contain integrated circuits and can communicate wirelessly using RFID or NFC technologies. Microchips are commonly used in a variety of applications, the ones you may know are like smart cards, identification badges, and some implantable medical devices.
In contrast, nanochips are much smaller, with dimensions in the micrometer or even nanometer range. Instead of silicon, nanochips are often made of other materials like carbon nanotubes or graphene. Rather than wireless communication, nanochips rely on direct contact with bodily fluids to power themselves and transmit data. This allows them to be extremely small and potentially integrate more closely with biological systems.
The two wires you described are likely part of the power harvesting mechanism for the nanochip, allowing it to draw small amounts of electricity from the surrounding fluids to operate. This allows nanochips to function without a battery or external power source.
The key differences are the size scale, construction materials, and power/communication mechanisms between microchips and nanochips. Nanochips represent a more recent and miniaturized advancement in chip technology compared to the more established microchip form factor.
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Renee Mohr
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Microchips & Nanochips
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