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∙ 13y ago
Wiki User
∙ 12y agoNone. Whatsoever.
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Are there biological nanomachines in your body?
Of course
What are different types of nanotechnology?
Nanomaterials, Nanomachines, Nanofactories
What are e-applications?
Ther are applicatins that work best in building, commerce, politics, history. E-Applications or Apps are computer programs that have a social usefulness
What is Metal Gear solid 4 about?
It is about the main character solid snake trying to kill his his brother liquid who is controlling another main villain's body and to stop him from controlling an immense army by nanomachines inside them. I definitely recommend it for fans of shooters, stealth, and of the MGS series.
What key combinations can you use to switch between open applicatins?
Alt-Tab Hold down the alt key like a shift key, press tab a number of times until you see the application you want. one quick alt tab takes you to the last application used.
Where is the crank sensor located on 1997 grand prix gt 3.8 liter?
the ckp for the 3.8 is located at the harmonic balancer on all applicatins remove the right side (passenger) tire and also the plastic shroud, you should be able to access the crank sensor from there You'll have to pull your harmonic balancer to change the crank sensor.
What are the prime applications of machine vision?
Machine Vision is a type of technology and methodology used in the machine industry. The prime applicatins of Machine Vision are in robotics, such as industrial robot guidance, and process control.
How does nanotechology helps in automobile engineering?
In the next 50 years, machines will get increasingly smaller -- so small that thousands of these tiny machines would fit into the period at the end of this sentence. Within a few decades, we will use these nanomachines to manufacture consumer goods at the molecular level, piecing together one atom or molecule at a time to make baseballs, telephones and cars. This is the goal of nanotechnology.
What are the risks of nanotechnology?
well people think that the nanoparticles will turn into self replicating nanorobots. but that is not true. in actual fact there are no risk except the fact that scientists say if they do put them into somones body and design them so they can eg, cure an illness. well scientist think that the nanomachines might when travelling in your body somehow go into your brain and damage it big time. but we have still got years to find out yet.
Is Vamp immortal?
*SPOILER ALERT* No. Vamp's body is riddled with advanced nanomachines that allow him to quickly recover from wounds and injuries that would be fatal to a normal person. The reason for this superhuman ability is not made clear until Act 4 (Shadow Moses) of MGS 4: Guns of the Patriots. Vamp is killed by Naomi Hunter by neutralizing his nanobots with the syringe after he is fatally wounded and hadn't had the time to recover after a fight with Cyborg Ninja Raiden in the same room that Snake fights REX in MGS 1.
A Day in the Life of an Engineer?
Engineering has a diverse array of disciplines and sub-specialties. Depending on your major and employer, no two jobs are quite alike. However, there are some similarities that all share. Engineers design things. Whether it be bridges, nanomachines, or a nuclear reactor, engineers design and oversee the construction of technological devices. At some point, you will be handed a project to work on. Usually an engineer will review the project information carefully and perhaps perform a few calculations to arrive at some of the things they will need to know. From here he or she will use a design tool like AutoCAD or maybe even drafting paper to put their design in graphical form. He or she will play with this design, perfecting it, and then do more math to make sure it'll work.
Why is nanotechnology becoming popular?
Building with Atoms Atoms are the building blocks for all matter in our universe. You and everything around you are made of atoms. Nature has perfected the science of manufacturing matter molecularly. For instance, our bodies are assembled in a specific manner from millions of living cells. Cells are nature's nanomachines. Humans still have a lot to learn about the idea of constructing materials on such a small scale. Consumer goods that we buy are made by pushing piles of atoms together in a bulky, imprecise manner. Imagine if we could manipulate each individual atom of an object. That's the basic idea of nanotechnology, and many scientists believe that we are only a few decades away from achieving it. Photo courtesy NASA, Ames Nanogears no more than a nanometer wide could be used to construct a matter compiler, which could be fed raw material to arrange atoms and build a macro-scale structure. Nanotechnology is a hybrid science combining engineering and chemistry. Atoms and molecules stick together because they have complementary shapes that lock together, or charges that attract. Just like with magnets, a positively charged atom will stick to a negatively charged atom. As millions of these atoms are pieced together by nanomachines, a specific product will begin to take shape. The goal of nanotechnology is to manipulate atoms individually and place them in a pattern to produce a desired structure. There are three steps to achieving nanotechnology-produced goods: Scientists must be able to manipulate individual atoms. This means that they will have to develop a technique to grab single atoms and move them to desired positions. In 1990, IBM researchers showed that it is possible to manipulate single atoms. They positioned 35 xenon atoms on the surface of a nickel crystal, using an atomic force microscopy instrument. These positioned atoms spelled out the letters "IBM." The next step will be to develop nanoscopic machines, called assemblers, that can be programmed to manipulate atoms and molecules at will. It would take thousands of years for a single assembler to produce any kind of material one atom at a time. Trillions of assemblers will be needed to develop products in a viable time frame. In order to create enough assemblers to build consumer goods, some nanomachines, called replicators, will be programmed to build more assemblers. Trillions of assemblers and replicators will fill an area smaller than a cubic millimeter, and will still be too small for us to see with the naked eye. Assemblers and replicators will work together like hands to automatically construct products, and will eventually replace all traditional labor methods. This will vastly decrease manufacturing costs, thereby making consumer goods plentiful, cheaper and stronger-hear the echo? Not to dispute the answer but right now the ARMY is actively searching for technology to put solar cells into fabrics to charge the batteries used by army people for a variety of uses
