NANO TECHNOLOGY
18 seems to be the magic number in today's manufacturing process. Intel and AMD both boast their upgraded production, and note that it will lead to ever increasing speeds and capabilities. Quietly, however, there is a growing consensus among the scientific community that silicon based-chips are on their way out. Tiny, molecular computers are becoming more and more feasible, and may do to silicon what transistors did to vacuum tubes. Across the world, universities and government institutions are making advances in nano-technology that could shatter today's concept of electronics. As far as speed and memory are concerned, the results may be incomprehensible to consumers and businesses alike. Consumers are routinely fooled by the false-security of a megahertz rating. Most buyers think an extra 50Mhz is appealing, despite a $75-$100 increase on the price tag. True, a 550 Pentium 3 has a 10% speed advantage over a 500 Pentium 3, but it realistically only performs a 5% increase in most applications. Consumers need to understand that speed and performance are mutually exclusive. An extra 100 bucks is hardly worth the 10-12-millisecond improvement when launching Microsoft Word. Still, an 800 Athlon thi
The mineral business is about to change. Nanotechnology is a truly revolutionary. They have drawn up ideas about curing cancers and legions on the body with nanoparticles traveling through the body to fix it from the inside. Hall designed the 'bot with 12 arms that can be waved back and forth and grip the ends of other robot arms, making power and communication connections. Lots of familiar items will appear "traditional" on the outside, yet posses a multitude of new tricks and functionality made possible with MNT -- cars with Utility Fog crash protection for instance. This combination of extreme reactivity to control and virtually limitless creative and operational ability suggest a comparison with the Krell machine in "Forbidden Planet". This "self-assembly" is an important feature that will drop cost dramatically. com) not only could you flood large numbers of nano-robots into a reservoir in order to collect information that characterizes the reservoir conditions, but also program nanites to build capillary collection systems out of the carbon in the oil (diamond), capable of extracting extremely high percentages of a reserve (probably 95-98%). Of course, memory and storage would be millions, if not billions, of times faster and larger. Molecular computers would have their components produced in vast numbers without such hindrances. Ideally, programed "nanites", machines with atomic sized components could take any source of required atoms and energy, make copies of themselves, then "grow" things without traditional manufacturing techniques and without byproducts. Traditional manufacturing will not be able to compete with assembler technology and what happens to all those jobs and the financial markets is a big, big issue that needs to be addressed now.
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Acceptance Essays
