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4. Nanobot technology
NANOBOTS TECHNOLOGY
Nanotechnology, as well as the related robotics discipline of nanorobotics, examines how technology might be used to manipulate matter at the nanoscale. A nanometre, or one billionth of a metre, or 10-9m, is a measurement of one billionth of a metre. A strand of hair is 100,000 nanometres wide, whereas a water molecule is less than one nanometre wide. As a result, nanotechnology aims to function precisely at a fine scale far beyond what conventional microscopes can see — at a level where the very building blocks of life are at stake. There is no single defining form of nanotechnology, nor is there a single leading use, but developing nanorobotics for healthcare has immediate benefits. You can more readily treat and cure disease’s primary causes if you can influence molecules at such a granular level, or even on a somewhat bigger scale. Now lets talk what other things Nanotech can do? It has the potential to improve a wide range of scientific fields. Medicine, the environment, industrial manufacturing, and even warfare are among them.
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Nanotechnology is a new topic in robotics that promises a variety of answers to challenges that have plagued humanity since the dawn of time. Nanobots have the potential to be one of humanity’s most significant achievements. Nanotechnology is the fabrication of tiny items that are so small that they are made of the atomic building blocks of life rather than normal materials. Nanorobotics is a branch of this field that focuses on developing robots that are so tiny that they are practically imperceptible to the naked eye. These ti-ny robots have the potential to achieve some very amazing things when they work together as a swarm.
HOW SMALL IS A NANOMETRE
Nanorobots are so small that they actually in teract on the same level as bacteria and viruses. MIT researchers produced nanobots in 2018 that are so tiny and light that they could float in the air. Linking 2D electrical components to small particles weighing between one billionth and one millionth of a metre enabled this na notechnology. The end result is a robot that is about the size of an ovum or a grain of sand. And this is happening RIGHT NOW. Imagine a world where we are practically inhaling bil lions of nanobots per breath in the next several decades.
Or maybe we’ve always been already here, and Corona Virus is one of the nano applica tions that went bad, and we’re breathing on it. The inclusion of photodiode semiconductors, which can detect radiation from the optical do main and convert it to an electrical signal, en sures that the environmental sensors in these robots have a constant source of energy. This technique may work without a battery due to the little electrical charge created.
Nanorobots are so small that they actually interact on the same level as bacteria and viruses. MIT researchers produced nanobots in 2018 that are so tiny and light that they could float in the air. Linking 2D electrical components to small particles weighing between one billionth and one millionth of a metre enabled this nanotechnology. The end result is a robot that is about the size of an ovum or a grain of sand. And this is happening RIGHT NOW. Imagine a world where we are practically inhaling billions of nanobots per breath in the next several
Or maybe we’ve always been already here, and Corona Virus is one of the nano applications that went bad, and we’re breathing on it. The inclusion of photodiode semiconductors, which can detect radiation from the optical domain and convert it to an electrical signal, ensures that the environmental sensors in these robots have a constant source of energy. This technique may work without a battery due to
What does these technologies mean to us? How are we going to achieve our goal of shrinking down houses and having them in our pockets by learning all these? Well this chapter was important to know, on what level we are today in terms of known technology. So that the idea of having house in the pocket doesnt seem so absurd and is quite seeable in the future.
All the technologies that were explained in this chapter, are going to be the peak and primary tech in the coming decades where each and every human will be using it consciously and unconsiously. And the technology we are going to discuss further is also connected to all these tech, lets say the are the very building block of what we want to achieve. Augmented Reality, Virtual Reality, Artificial Intelligence, 3D Printing and Nano tech may seem different tech for now but when studied altogether, these all things will be needed and used simultaneously by the user in his daily life in the coming years.
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3.0 EXPLORATION
01 NANO DUST
An introduction to the main ingredient needed for our technology
02 CAPSULES
A future perspective of having all the things you own in a capsule system.
03 GRAPHENE
Exploring the material we are going to use for the technology
04 SIMULATION
Computer simulated trials about how would it look particles morphing into things as we wish it to be
Our ability to wield technology and manipulate the laws of science will become increasingly important in the decades and centuries to come.
