To the beginning of nanotechnology:
IT came to the twenty-first century, there has been much talk, much has been heard of this nanotekanalaji. Most of Japan’s national budget is being used in research on nanotekalaji regarding considered. Japanai not just in Europe, America, China, Korea and countries try to outdo all of the related research. Why? They want to be the most advanced. We want to be the leader in this regard. IT lead America, but does not want to lag behind other countries nanotekanalajite. So highly is competition at home and abroad. Why nanotekanala
Yes, all of the interest?
One simple answer is, nanotekanalajira yuda next day. You have heart disease? NANO rabota will repair the inside of your body. Your hand will be on your computer’s clock on your mobile, everything. It will be possible thanks to nanotekanalajira.
What NANO Technology?
NANO is a unit of measure. One of the matriculation examination was started in 1790 in France. France ekakagulike General to the National Assembly committee, and the first ten units of the decimal metric system was proposed. And the length of one meter of the unit was introduced. They are part of the Earth’s circumference 40,000,000 pieces of the meter. The word comes from the Greek word metron, which means the meter, measurements. The winds centimeters to one meter is 100 percent. The law was introduced in France in 1793. The definition of the meter was changed in 1960. Kripatana 86 pieces kamalaranera radiation meter is part of the tarangadairghera 1,650,763.73. The definition of the meter was changed again in 1983, according to the current definition, bayusunye 299792458 percent the speed of light is one of the pieces meter. The meter’s 1,000,000,000 (100 million) is part of nanomitara winds. The word comes from the Greek word nanos, which means NANO abhidhanika dwarft but it is being used as a unit of measurement. The funds relating to the technology and scale nanomitara segulikei nanotekanalaji say.
M unit in our daily lives involved. Home furniture, we measure all the meters. Until World War II, milimatara were measured on a scale of sophistication. Millimeter of the small room was not thinking about anything. But after the end of World War II, a new era of science and technology. Semikandakatara he started hiking. And that’s just the beginning, to transistors with. Our thoughts are with the starting unit in the micrometer. The journey began, maikrotekanalajira.
The Technology move started at a furious pace. Bhagyo accessories, including television, radio, refrigerator, et cetera. And what can be done with a smaller pracanta how the battle began. How much a company will be able to reach out to the small size of this thing the consumer, the competition started. The whole thing is possible, for the benefit of semikandakara related technologies. Rodeo or the size of the early TV viewing to be able to smile now. How did people used such a big thing? The question may come a minute. But now the market on the wall jhulabara calendar for the thin TV’s. Maybe more will come in front of the small.
In 1980, IBM researchers invented the STM (Scanning Tunneling Microscope) with this device can be seen in the structure of the molecule. The device discovery nanotekanalajike been able to shape reality. This is how the STM. This device has a very fine tip sucala like pins and any conductive object when it is taken to the very, very small amount of power when it is transported from the tunneling. And the amount of electricity through the outer layer of the object is to create an image of the molecule. However, he would like to see the power of the STM must be conductive. But it can be seen how the power structure of the molecule aparibahira? People did not sit down. The man has been impossible so far, this is the way to make the impossible possible with the AFM. In the case of STM and AFM are working with electricity tunneling through the molecule structure can be thin with the pin.