When you hear the word Chinabased“nanotechnology,” images of molecular machines and computers flicker through your brain. Even though nanotechnology is technically a new science, it’s very old news to most people. Nanotechnology is perhaps best known for its use in improving the performance of small devices such as appliances or computers. In other words, it’s probably best known for being used in electronics and communication technology. But what exactly is nanotechnology? Is it just another tech-savvy generation trying to invent their way out of the IT department? No! As a new science, nanotechnology has a long history going back to the twelfth century when Japanese physicist Harunari Yukawa wrote about how sunlight could be used as a source of energy. The word “nanotech” itself was coined by American electrical engineer Donald Shoup in 1974 when he coined the phrase “nanobots” to describe tiny computer chips that can be programmed to do some very specific tasks. Today, many other countries have their own divisions dedicated to researching and developing new techniques in the field of nanotech engineering and research. Here are some things you need to know about this emerging science:
Here’s what you need to know about nanotechnology: It is a very recent branch of science that was discovered in the late 1980s and early 2000s by researchers in the fields of physics and chemistry. The field of nanotechnology includes the application of ultra-short waves of light to the matter universe. These waves are merely frequencies that can be triggered in matter and then bent or repositioned to produce an array of effects. The first effect is the release of ionic antimatter, which annihilates with the matter universe’s positive forces, followed by the formation of dark matter and an object that is neither light nor matter. The antimatter produced by the first two processes is called “antidote antimatter” and is why antimatter is an increasing expense as we get deeper into the universe.
The second effect produced by the release of antimatter in the universe is that of antimatter precipitation, which leads to the formation of black holes and black hole debris. This is why antimatter is so expensive to generate. Most of it is kept in the form of super-honestze particles that can only be created by supernova smashing.
Another effect produced by the release of antimatter is that of a factories industry where new materials and processes are developed. This is where nanofactories come into play. The first factory is the one that creates and appliances use to manufacture the antimatter produced by the first two processes. Next, there is the field of artificial intelligence that constantly keeps improving and applying these processes to create ever-more-efficient machines.
The final effect of the release of antimatter is that of a ventilated atmosphere with low levels of constant pressure, soft and flowing water, and a rich and diverse terrestrial environment. This is what we call a “northern lights display” and it’s what we see most often in the winter months during the northern lights season.
The third effect of the release of antimatter is that of depleted or “freezing” life-supporting elements such as ice, snow, and water. While this effect is not directly connected to the development of nanotechnology, it is a great example of how technology and science can interact. The freezing effect is a result of the passage of small target molecules called “nuclei” between our bodies and the outside world. These little molecules are like electrical charges and can be easily captured and released from our bodies.
All this talk about “nanotech” and “nano” only goes to show that science is not close to being done with the world’s dependencies and intricate mechanisms. There will always be new discoveries and new applications of technology, but the essential ingredients of balance and order have to remain in check. Technology can only do so much, and then it has to adapt to the new circumstances that arise with time and environment. Once the groundwork is set, it’s up to the scientists to make sure these situations remain as peaceful and stable as possible. Photographs by shutterstock.com. You’ve probably heard about the advantages of solar panels, but did you know that they’re actually based on a philosophy that extends to the inside of our own bodies? What if every part of your body had its own battery?” That’s the concept of “autonomy” put forth by Oregon physician and neurobiologist Gary Weiss, Ph.D., whose research focuses on how the mind–body relationship affects our health and performance. If these ideas sound like something you might enjoy, consider swapping your electronic device for a walking stick and heading to the doctor’s office every so often. As Dr. Weiss points out, “Every part of your body has its own battery.”