Giving a decent answer requires outlining the different fields of research that fall under the nanotechnology umbrella and describing the background knowledge required to work in them. It also seems wise to say something about the different levels of knowledge and modes of learning that are relevant to such a broad, interdisciplinary area. The following is a personal view, based on what I have learned and wished I had learnedand on how learning in these areas seems to work best.
That world is the field of nanotechnology, the realm of atoms and nanostructures. Even so, predictions range from the ability to reproduce things like diamonds and food to the world being devoured by self-replicating nanorobots.
In order to understand the unusual world of nanotechnology, we need to get an idea of the units of measure involved.
A centimeter is one-hundredth of a meter, a millimeter is one-thousandth of a meter, and a micrometer is one-millionth of a meter, but all of these are still huge compared to the nanoscale.
A nanometer nm is one-billionth of a meter, smaller than the wavelength of visible light and a hundred-thousandth the width of a human hair [source: An atom has a diameter of about 0. 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.
At the atomic scale, elements are at their most basic level. On the nanoscale, we can potentially put these atoms together to make almost anything. In a lecture called "Small Wonders:Nanotechnology engineers can perform a wide range of tasks and have a very diversified field that they work in.
Some emphasize research and development using cells and molecules. The work they do. The theoretical study of nanotechnology involves exploratory engineering work in any of several of areas.
It includes basic studies in nanomechanical engineering (the study of molecular machines) and nanoelectrical engineering (the study of molecular and atomically-precise nanometer scale electronic systems).
Nanotechnology Degree Programs.
Nanotechnology is a rapidly growing field in a variety of areas such as electrical engineering technology or biotechnology. Sep 19, · Nanotechnology is the manipulation of matter on a near-atomic scale to produce new structures, materials and devices. The technology promises scientific advancement in many sectors such as medicine, consumer products, energy, materials and manufacturing.
Thirty Essential Nanotechnology Studies - Introduction. Overview of all studies: Because of the largely unexpected transformational power of molecular manufacturing, it is urgent to understand the issues regardbouddhiste.com date, there has not been anything approaching an adequate study of these issues.
Increasing demands for using new, high quality and more efficient materials in construction industry, meanwhile using less raw materials and energy has resulted in application of new modern technologies in this industry.