Information about There's Plenty Of Room At The Bottom
There's Plenty of Room at the Bottom is the title of a famous lecture given by physicist Richard Feynman at an American Physical Society meeting at Caltech on December 29 in 1959. [1] Feynman considered the possibility of direct manipulation of individual atoms as a more powerful form of synthetic chemistry than those used at the time.
Feynman considered a number of interesting ramifications of a general ability to manipulate matter on an atomic scale. He was particularly interested in the possibilities of denser computer circuitry, and microscopes which could see things much smaller than is possible with scanning electron microscopes. These ideas were later realized by the use of the scanning tunneling microscope, the atomic force microscope and other examples of probe microscopy and storage systems such as Millipede, created by researchers at IBM.
Feynman also suggested that it should be possible, in principle, to do chemical synthesis by mechanical manipulation, and he presented the "weird possibility" of building a tiny, swallowable surgical robot by developing a set of one-quarter-scale manipulator hands slaved to the operator's hands to build one-quarter scale machine tools analogous to those found in any machine shop. This set of small tools would then be used by the small hands to build and operate ten sets of one-sixteenth-scale hands and tools, and so forth, culminating in perhaps a billion tiny factories to achieve massively parallel operations. This idea was anticipated in part, down to the microscale, by science fiction author Robert A. Heinlein in his 1940 short novel Waldo. As the sizes got smaller, we would have to redesign some tools because the relative strength of various forces would change. Gravity would become less important, surface tension would become more important, Van der Waals attraction would become important, etc. Feynman mentioned these scaling issues during his talk. Nobody has yet attempted to implement this thought experiment.
He concluded his talk with challenges to build a tiny motor and to write the information from a book page on a surface 1/25,000 smaller in linear scale. He offered prizes of $1000 for each challenge. Amazingly, his motor challenge was quickly met by a meticulous craftsman using conventional tools; the motor met the conditions, but did not advance the art. In 1985, Tom Newman, a Stanford grad student, successfully reduced the first paragraph of A Tale of Two Cities by 1/25,000, and collected the second Feynman prize.
K. Eric Drexler later took the Feynman concept of a billion tiny factories and added the idea that they could make more copies of themselves, via computer control instead of control by a human operator, in his 1986 book Engines of Creation: The Coming Era of Nanotechnology.
After his death, scholars studying the historical development of nanotechnology have concluded that Feynman's actual role in catalyzing nanotechnology research was limited based on recollections from many of the people active in the nascent field in the 1980s and 1990s. However, Feynman's stature as a Nobel laureate and as an iconic figure in 20th century science surely helped advocates of nanotechnology and provided a valuable intellectual link to the past.
Feynman was also known for his magnificent talks in low level science classes. He would ask to teach these classes, which would then be attended by graduate students, or even professors. His unique teaching style allowed him to take incredibly complicated subjects and transform them into a series of lectures that even his rudimentary physics students were capable of comprehending and applying.
Feynman considered a number of interesting ramifications of a general ability to manipulate matter on an atomic scale. He was particularly interested in the possibilities of denser computer circuitry, and microscopes which could see things much smaller than is possible with scanning electron microscopes. These ideas were later realized by the use of the scanning tunneling microscope, the atomic force microscope and other examples of probe microscopy and storage systems such as Millipede, created by researchers at IBM.
Feynman also suggested that it should be possible, in principle, to do chemical synthesis by mechanical manipulation, and he presented the "weird possibility" of building a tiny, swallowable surgical robot by developing a set of one-quarter-scale manipulator hands slaved to the operator's hands to build one-quarter scale machine tools analogous to those found in any machine shop. This set of small tools would then be used by the small hands to build and operate ten sets of one-sixteenth-scale hands and tools, and so forth, culminating in perhaps a billion tiny factories to achieve massively parallel operations. This idea was anticipated in part, down to the microscale, by science fiction author Robert A. Heinlein in his 1940 short novel Waldo. As the sizes got smaller, we would have to redesign some tools because the relative strength of various forces would change. Gravity would become less important, surface tension would become more important, Van der Waals attraction would become important, etc. Feynman mentioned these scaling issues during his talk. Nobody has yet attempted to implement this thought experiment.
He concluded his talk with challenges to build a tiny motor and to write the information from a book page on a surface 1/25,000 smaller in linear scale. He offered prizes of $1000 for each challenge. Amazingly, his motor challenge was quickly met by a meticulous craftsman using conventional tools; the motor met the conditions, but did not advance the art. In 1985, Tom Newman, a Stanford grad student, successfully reduced the first paragraph of A Tale of Two Cities by 1/25,000, and collected the second Feynman prize.
K. Eric Drexler later took the Feynman concept of a billion tiny factories and added the idea that they could make more copies of themselves, via computer control instead of control by a human operator, in his 1986 book Engines of Creation: The Coming Era of Nanotechnology.
After his death, scholars studying the historical development of nanotechnology have concluded that Feynman's actual role in catalyzing nanotechnology research was limited based on recollections from many of the people active in the nascent field in the 1980s and 1990s. However, Feynman's stature as a Nobel laureate and as an iconic figure in 20th century science surely helped advocates of nanotechnology and provided a valuable intellectual link to the past.
Feynman the Teacher
There was also a version of this talk, with the same name, that Feynman gave to high school students. One place that it was given was Los Angeles High School, in about 1960, to a group of fifty selected high school physics students. The talk was well understood and greatly appreciated by the students.Feynman was also known for his magnificent talks in low level science classes. He would ask to teach these classes, which would then be attended by graduate students, or even professors. His unique teaching style allowed him to take incredibly complicated subjects and transform them into a series of lectures that even his rudimentary physics students were capable of comprehending and applying.
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- Chris Toumey. “Apostolic Succession.” Engineering & Science , 1/2 (2005): 16-23.
Physics is the science of matter[1] and its motion[2][3], as well as space and time[4][5] —the science that deals with concepts such as force, energy, mass, and charge.
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Richard Phillips Feynman
Richard Feynman, dust jacket photo for
What Do You Care What Other People Think?
Born May 11 1918
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Richard Feynman, dust jacket photo for
What Do You Care What Other People Think?
Born May 11 1918
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The American Physical Society was founded in 1899 and is the world's second largest organization of physicists. The Society publishes more than a dozen science journals, including the world renowned Physical Review and Physical Review Letters, and organizes more than twenty science
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California Institute of Technology (commonly referred to as Caltech)[1] is a private, coeducational research university located in Pasadena, California, in the United States. Caltech maintains a strong emphasis on the natural sciences and engineering.
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December 29 is the 1st day of the year (2nd in leap years) in the Gregorian calendar. There are 0 days remaining.
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atom (Greek ἄτομος or átomos meaning "indivisible") is the smallest particle still characterizing a chemical element.
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computer is a machine which manipulates data according to a list of instructions.
Computers take numerous physical forms. The first devices that resemble modern computers date to the mid-20th century (around 1940 - 1941), although the computer concept and various machines
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Computers take numerous physical forms. The first devices that resemble modern computers date to the mid-20th century (around 1940 - 1941), although the computer concept and various machines
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scanning electron microscope (SEM) is a type of electron microscope capable of producing high-resolution images of a sample surface. Due to the manner in which the image is created, SEM images have a characteristic three-dimensional appearance and are useful for judging the
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Scanning tunneling microscopy (STM) is a powerful technique for viewing surfaces at the atomic level. Its development won its inventors, Gerd Binnig and Heinrich Rohrer (at IBM Zürich), the Nobel Prize in Physics in 1986 [1].
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atomic force microscope (AFM) or scanning force microscope (SFM) is a very high-resolution type of scanning probe microscope, with demonstrated resolution of fractions of a nanometer, more than 1000 times better than the optical diffraction limit.
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Scanning probe microscopy (SPM) is a new branch of microscopy that forms images of surfaces using a physical probe that scans the specimen. An image of the surface is obtained by mechanically moving the probe in a raster scan of the specimen, line by line, and recording the
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Millipede is a non-volatile computer memory stored on nanoscopic pits burned into the surface of a thin polymer layer, read and written by a MEMS-based probe. It promises a data density of more than 1 terabit per square inch (1 gigabit per square millimeter), about 20 times the
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International Business Machines Corporation
Public (NYSE: IBM )
Founded 1889, incorporated 1911
Headquarters Armonk, New York, USA
Key people Samuel J.
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Public (NYSE: IBM )
Founded 1889, incorporated 1911
Headquarters Armonk, New York, USA
Key people Samuel J.
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Massively parallel is a description which appears in computer science, life science, medical diagnostics, and other fields.
A massively parallel computer is a distributed memory computer system which consists of many individual nodes, each of which is essentially an
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A massively parallel computer is a distributed memory computer system which consists of many individual nodes, each of which is essentially an
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Robert A. Heinlein
Heinlein signing autographs at the 1976 Worldcon
Born: July 7 1907
Butler, Missouri, USA
Died: May 8 1988 (aged 82)
Carmel, California,USA
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Heinlein signing autographs at the 1976 Worldcon
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Butler, Missouri, USA
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Carmel, California,USA
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Waldo & Magic, Inc.
1994 Del Rey paperback cover, 1942 original publication magazine cover
Author Robert A. Heinlein
Country USA
Language English
Genre(s) Science fiction
Publisher Doubleday
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1994 Del Rey paperback cover, 1942 original publication magazine cover
Author Robert A. Heinlein
Country USA
Language English
Genre(s) Science fiction
Publisher Doubleday
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Gravitation is a natural phenomenon by which all objects with mass attract each other. In everyday life, gravitation is most familiar as the agency that endows objects with weight.
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van der Waals force is sometimes used as a synonym for the totality of non-covalent forces (also known as intermolecular forces). These forces, which act between stable molecules, are weak compared to those appearing in chemical bonding.
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Kim Eric Drexler (born April 25, 1955 in Oakland, California) is an American engineer best known for popularizing the potential of molecular nanotechnology (MNT), from the 1970s and 1980s.
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Engines of Creation (ISBN 0-385-19973-2) is a seminal molecular nanotechnology book written by K. Eric Drexler in 1986. The foreword is by Marvin Minsky of MIT. Minsky states, "Engines of Creation begins with the insight that what we can do depends on what we can build.
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Foresight Nanotech Institute Feynman Prize is an award given by Foresight Nanotech Institute every year for significant advancements in nanotechnology. It is named after physicist Richard Feynman.
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