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I can't speak to you very long so Please Listen Carefuly. My name in Naomi Hunter. I am a nanotechnician with a PMC known as Outer Haven. Our founder, a man named Liquid Ocelot, has used my research to put into motion a terrible plan that may well bring an end to the Patriots. The Patriots may well be a nauseating evil facet of American life, but without a doubt should they be suddenly and irreversibly destroyed, the power vacuum left behind could well sink this country into chaos. The SOP system may well be fueling the machine of war, but it is an ordered machine, one that can be predicted. Should that check on war be removed, the acceleration would be unpredicatable and could possibly result in a third World War or the further proliferation of nuclear weapons into less civilized hands. The threat of the Metal Gear RAY, now under the control of Liquid Ocelot, can't be forgotten either. But the greatest threat of all is still be constructed around me as we speak. A great Metal Gear, greater than any before, a perfect Arsenal Gear, greater than that which was beneath Big Shell, greater than even FOXDIE, my own creation and greatest Nanothreat, Outer Haven! You must stop Liquid Ocelot! Help me, your my onry hope Mistaru Hideo Kojima-kun!
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What is nanotechnology good for?
Nanotechnology is beneficial for various fields, including medicine, electronics, energy, and materials science. In medicine, it enables targeted drug delivery and the development of advanced diagnostic tools. In electronics, it allows for smaller, faster, and more efficient devices. Additionally, nanotechnology contributes to renewable energy solutions and enhances materials with improved strength, lightweight properties, and resistance to wear and corrosion.
Why is nanotechnology good for the environment?
Nanotechnology is beneficial for the environment as it enables the development of more efficient materials and processes that reduce waste and energy consumption. For instance, nanomaterials can enhance the efficiency of solar cells, leading to cleaner energy production. Additionally, nanotechnology can improve water purification methods, making it easier to remove pollutants. Overall, these advancements contribute to more sustainable practices and help mitigate environmental challenges.
What is the 2013 budget for the US National Nanotechnology Initiative?
The 2013 budget for the U.S. National Nanotechnology Initiative (NNI) was approximately $1.5 billion. This funding was allocated to various federal agencies to support research and development in nanotechnology, aiming to advance the understanding and application of nanoscale materials and processes. The initiative focused on fostering innovation, enhancing economic competitiveness, and addressing societal challenges through nanotechnology advancements.
Who discovered nanotechnology?
Nobel-prize-winning physicist Richard Feynman gave a lecture titled "There's Plenty of Room at the Bottom" on December 29, 1959 at an American Physical Society meeting at Caltech. It considered the possibility of direct manipulation of individual atoms, and is widely regarded as a milestone in the development of nanotechnology.Practical nanotechnology started in the 1980s with the development of atomic force microscopes, which are capable of manipulating individual atoms.K. Eric Drexler published Engines of Creation: The Coming Era of Nanotechnology in 1986, expanding on the concepts of nanotechnology, and laying out a hypothetical roadmap to achieve it.
Who was the first inventor of nanotechnology?
The concept of nanotechnology is often attributed to physicist Richard Feynman, who introduced the idea in his 1959 lecture "There's Plenty of Room at the Bottom." However, the term "nanotechnology" was coined later, in 1974, by the Japanese researcher Norio Taniguchi. While Feynman's work laid the foundational ideas, Taniguchi is recognized for formally defining the field. Thus, both played pivotal roles in the development of nanotechnology.
What is nanotechnology good for?
Nanotechnology is beneficial for various fields, including medicine, electronics, energy, and materials science. In medicine, it enables targeted drug delivery and the development of advanced diagnostic tools. In electronics, it allows for smaller, faster, and more efficient devices. Additionally, nanotechnology contributes to renewable energy solutions and enhances materials with improved strength, lightweight properties, and resistance to wear and corrosion.
Why is nanotechnology good for the environment?
Nanotechnology is beneficial for the environment as it enables the development of more efficient materials and processes that reduce waste and energy consumption. For instance, nanomaterials can enhance the efficiency of solar cells, leading to cleaner energy production. Additionally, nanotechnology can improve water purification methods, making it easier to remove pollutants. Overall, these advancements contribute to more sustainable practices and help mitigate environmental challenges.
Why is nanotechnology being developed so rapidly?
Nanotechnology offers potential breakthroughs in various fields such as medicine, electronics, and materials science due to its ability to manipulate materials at the atomic and molecular levels. The promise of enhanced performance, increased efficiency, and innovative applications is driving rapid development in this field. Additionally, advancements in research tools and techniques have accelerated progress in nanotechnology research and development.
How did nanotechnology get started and when?
Nanotechnology began to emerge as a field of study in the 1980s with the development of the scanning tunneling microscope. This enabled researchers to manipulate individual atoms and molecules, leading to the exploration of nanoscale materials and phenomena.
Nanotechnology in space?
Nanotechnology in space offers potential benefits such as lightweight materials, advanced sensors, and solar panels. Nanomaterials can enhance spacecraft components like thermal protection systems and radiation shielding. Nanotechnology also enables the development of miniaturized sensors for monitoring spacecraft health and resources.
How discovered nanomites?
The history of nanotechnology traces the development of the concepts and experimental work falling under the broad category of nanotechnology. Although nanotechnology is a relatively recent development in scientific research, the development of its central concepts happened over a longer period of time. The emergence of nanotechnology in the 1980s was caused by the convergence of experimental advances such as the invention of the scanning tunneling microscope in 1981 and the discovery of fullerenes in 1985, with the elucidation and popularization of a conceptual framework for the goals of nanotechnology beginning with the 1986 publication of the book Engines of Creation. The field was subject to growing public awareness and controversy in the early 2000s, with prominent debates about both its potential implications as well as the feasibility of the applications envisioned by advocates of molecular nanotechnology, and with governments moving to promote and fund research into nanotechnology. The early 2000s also saw the beginnings of commercial applications of nanotechnology, although these were limited to bulk applications of nanomaterials rather than the transformative applications envisioned by the field.
How does mascara use nanotechnology?
Mascara that uses nanotechnology typically contains nanoparticles that help in creating a more even and long-lasting application. These nanoparticles adhere to the lashes better, resulting in increased volume and length without clumping. Nanotechnology also allows for the incorporation of beneficial ingredients like vitamins and peptides to nourish and protect the lashes.
What is nanotechnology in biochemistry?
Nanotechnology in biochemistry involves manipulating and studying biological molecules at the nanometer scale. It allows for precise control and manipulation of biomolecules for various applications, such as drug delivery, imaging, and biomaterial development. Nanotechnology in biochemistry has the potential to revolutionize healthcare and advance our understanding of biological systems at the molecular level.
Who is the founder of nanotechnology in chemistry?
Richard Feynman is considered one of the founding figures of nanotechnology, introducing the concept of manipulating individual atoms and molecules in his famous talk "There's Plenty of Room at the Bottom" in 1959. Other key figures in the development of nanotechnology include Eric Drexler and K. Eric Drexler.
What is the 2013 budget for the US National Nanotechnology Initiative?
The 2013 budget for the U.S. National Nanotechnology Initiative (NNI) was approximately $1.5 billion. This funding was allocated to various federal agencies to support research and development in nanotechnology, aiming to advance the understanding and application of nanoscale materials and processes. The initiative focused on fostering innovation, enhancing economic competitiveness, and addressing societal challenges through nanotechnology advancements.
Nanotechnology use in the field of semiconductors?
Nanotechnology is utilized in semiconductors to improve performance and reduce size by manipulating materials at the nanoscale level. This technology enables the development of smaller, faster, and more energy-efficient semiconductor devices. Techniques such as quantum dots, nanowires, and nanopatterning are commonly used in semiconductor nanotechnology research and production.
Who discovered nanotechnology?
Nobel-prize-winning physicist Richard Feynman gave a lecture titled "There's Plenty of Room at the Bottom" on December 29, 1959 at an American Physical Society meeting at Caltech. It considered the possibility of direct manipulation of individual atoms, and is widely regarded as a milestone in the development of nanotechnology.Practical nanotechnology started in the 1980s with the development of atomic force microscopes, which are capable of manipulating individual atoms.K. Eric Drexler published Engines of Creation: The Coming Era of Nanotechnology in 1986, expanding on the concepts of nanotechnology, and laying out a hypothetical roadmap to achieve it.
