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nanotechnoogy is emerging essay
nanotechnoogy is emerging essay
nanotechnoogy is emerging essay
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Introduction and History
Nanotechnology is an emerging material science technology which provides a higher level of control over matter at dimensions of roughly 1 to 100 nanometers. Nanotechnology's particularly small scale (10-7 to 10-9) improves physical, chemical, and biological properties of materials and systems. For instance, 10 nanometers are about 1000 times smaller than the diameter of a human hair.
For scientist to be able to control material, devices, and systems on a molecular scale opens up infinite possibilities in the nanotechnology field. Every existing science and technology field will become more advance and complex, especially the computer science field. There are endless possibilities of what nanotechnology can do to the name and make up of the computer, much like the concept of microcomputers that change the industry in the 1970's. A nanocomputers is a computer whose dimensions are nanoscopic. Today's computers are considered microcomputers and run off of micro processors. It will be nearly impossible to predict what nanotechnology will bring to humanity, whether it be good or for the bad.
Companies are responsible for adhering to accepted standards of ethical behavior. Any unethical use of information, software, hardware, or any other resources, either local to the department or externally accessible via research and design, will be treated like any other ethical violation. Ethics violations may also be made throughout product delivery. This paper will discuss the ethics of nanotechnology. The code of ethics will be reviewed in order to distinguish between ethical and unethical behavior. Finally, the effect on society due to this unethical behavior will be discussed along with my personal opinions.
Risks and Benefits
Since many people have different beliefs and prospectives about nanotechnologies and we should analyze the possible risks and benefits. Scientist and companies involved in the advancement of nanotechnologies have to be considerate to the people who will utilize these technologies. People may not know the risk so therefore a two-way process must be implemented. Scientist and the companies supporting the research of nanotechnologies must be able to understand the concerns of the general public as well as take responsibilities of any damages that they may cause to society.
Where will all the money come from to fund all the research? Who will monitor the research and insure that there will be a code of ethics followed? Funds will have to come from both private and public agencies.
Nanotechnology Jeremy Rifkin wrote, in his article Biotech Century: Playing Ecological Roulette with Mother Natures Design, "Humans have been remaking the Earth for as long as we have had a history." Well the path of history humans have chosen to take also affects how we remake the Earth. In Neal Stephensons novel, The Diamond Age, one is shown how the technology of the time reshapes the political, economical and educational aspects of history. That technology is the manipulation of molecules
Nanotechnology “Imagine a technology so powerful that it will allow such feats as desktop manufacturing, cellular repair, artificial intelligence, inexpensive space travel, clean and abundant energy, and environmental restoration; a technology so portable that everyone can reap its benefits; a technology so fundamental that it will radically change our economic and political systems; a technology so imminent that most of us will see its impact within our lifetimes. Such is the promise of Nanotechnology
Nanotechnology Nanotechnology is the development of atoms in a certain object. Nanotechnology has become very popular in the past few years. It is a way to rebuild the systems of life. To make systems move faster than ever before. Nanometer is about 10 times the size of an atom. Each of these has a huge effect on a system. Still there are questions out there that keep people wondering how important nanotechnology is to us. Many wonder how will it affect them and if we should continue this research
it requires that we understand how to precisely manipulate and control these materials in a useful way. Nanotechnology is a new and broad science where diverse fields such as physics, chemistry, biology, materials science, and engineering converge. The way consumers respond to these early products, will be the test for broader market acceptance of nanotechnologies in the future. Nanotechnology is the construction and the use of functional structures designed from an atomic or molecular scale with
Nanotechnology is the study of extremely small things and is used in the fields of chemistry, biology, physics, materials science, and engineering. Nanotechnology is measured on what is called a nanoscale, also known as a nanometer which is one billionth of a meter. The important 3 steps of nanotechnology are “small size, measured in 100s of nanometers or less, unique properties because of the small size, and control the structure and composition on the nm scale in order to control the properties
Nanotechnology and Medicine The active pursuit of knowledge in nanotechnology could revolutionize the treatment and detection of various diseases in the future. Nanotechnology is the branch of science that focuses on the development of technology at the molecular scale, including the development of instruments that have been applied to many fields, such as the automotive, cosmetic, and fabric industries. In medicine, nanotechnology has already been applied to the treatment of diabetes, the production
The use of nanotechnology has become wide spread in the market place and, has found a place on the forefront of the technology world as the up and coming thing. Every day new technologies are being discovered, making things faster, bigger, stronger, smaller, and better. In this case, nanotechnology is making things smaller, on the molecular scale. A substance is considered a nanomaterial if it ranges between 1 to 100 nanometers. Therefore, nanotechnology is the engineering and manipulation of nanomaterial
I have chosen nanotechnology as my topic area of choice from the food innovation module. Nanotechnology is science, technology and engineering that is conducted at the nanoscale. The nanoscale is about 1 to 100 nanometres. Figure 1: Image of the nanoscale, this illustration shows how small things at the nanoscale really are (nano.gov, 2013). Nanotechnology has found many potential applications in the area of functional foods by engineering biological molecules toward functions very different from
of paper ... ...ne Therapy 19: 530-537. Web. 10 June 2014. Selin, Cynthia. "Negotiating Plausibility: Intervening in the Future of Nanotechnology." Science and Engineering Ethics 17: 723-737. Print. Schummer, Joachim. "Cultural Diversity In Nanotechnology Ethics." Interdisciplinary Science Reviews 31: 217-230. Print. Syková, Eva, and Sarka Kubinova. "Nanotechnologies in regenerative medicine." Minimally Invasive Therapy & Allied Technologies 19: 144-156. Print. Wright, JonPaul. "Nanomedicine: Small
Nanotechnology and Its Purpose The US Government’s National Nanotechnology Initiative defines nanotechnology as “the understanding and control of matter at dimensions of roughly 1 to 100 nanometres, where unique phenomena enable novel applications.” A nanometre is a millionth of a millimetre - to bring that scale into context, a nanometre is the amount a man's beard grows in the time it takes him to raise the razor to his face. Nanotechnology refers to a field of applied science and technology
Introduction: Nanotechnology is an area of science involved in designing, building and manipulating structures at the nanometer scale. A nanometer (nm) is one billionth of a meter, and it’s the size scale of molecules. For example: A human hair is approximately 200,000nm in diameter. DNA is about 2nm in diameter. Bounds between many atoms are around 0.15nm long. Nanobiotechnology, bionanotechnology, and nanobiology are terms that refer to the intersection of nanotechnology and biology. The
Introduction Rapid advancements in nanosciences and nanotechnologies in recent years have opened up new prospects for so many industrial and consumer sectors that they have been regarded as the hotbed of a new industrial revolution. The food sector, which is worth over 4 trillion US$ per annum globally, is an obvious target of these new developments. Food related applications of nanotechnologies offer a wide range of benefits to the consumer. These include a possible reduction in the use of preservatives
Nanoparticles are so small in size that they can enter cells and organelles to interact with DNA, proteins, enzymes while circulating throughout the body. Therefore, nanotechnology is used in detecting disease in a very small volume of cells or tissue [1].As mention above; commonly used nanoparticles are such as, gold nanoparticle, silver nanoparticle, quantum dots and magnetic nanoparticle. Gold nanoparticles have unique stability against oxidation which makes it useful in diagnostic. Its benefits
Ethics of Nanotechnology Nanotechnology is actually a fairly new idea. This may not seem like any big deal in terms of ethics, but just like any type of scientific advancement there are positives and negatives. Of course the ethical issues don’t stem out of just the fact that this is a new kind of science. It branches off of “what will this new scientific technology be used for?” For example, Embryonic Stem Cell research. It’s not the research that’s bad it’s how they get the cells. There are
CHAPTER 1 INTRODUCTION 1.1 Nanotechnology Historical background of nanotechnology : (Feynman,1961; Drexler,2004; Ochekpe et al., 2009) Nanotechnology can be defined as the technology at the scale of one-billionth of a metre. The matter posses unique properties with nano scale of 1-100 nanometres (nm) size. The large surface area to volume ratio is the key element that is exhibited by the nano material and thus leaded to a variety of manipulations, diversifications and useful applications