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Richard Buckminster "Bucky" Fuller (/ˈfʊlər/; July 12, 1895 – July 1, 1983)[1] was an American architect, systems theorist, author, designer, inventor, and futurist. Fuller published more than 30 books, coining or popularizing terms such as "Spaceship Earth", ephemeralization, and synergetic. He also developed numerous inventions, mainly architectural designs, and popularized the widely known geodesic dome. Carbon molecules known as fullerenes were later named by scientists for their resemblance to geodesic spheres. Buckminster Fuller was the second president of Mensa from 1974 to 1983.[2] Biography Fuller was born on July 12, 1895, in Milton, Massachusetts, the son of Richard Buckminster Fuller and Caroline Wolcott Andrews, and also the grandnephew of the American Transcendentalist Margaret Fuller. He attended Froebelian Kindergarten.[citation needed] Spending much of his youth on Bear Island, in Penobscot Bay off the coast of Maine, he had trouble with geometry, being unable to understand the abstraction necessary to imagine that a chalk dot on the blackboard represented a mathematical point, or that an imperfectly drawn line with an arrow on the end was meant to stretch off to infinity. He often made items from materials he brought home from the woods, and sometimes made his own tools. He experimented with designing a new apparatus for human propulsion of small boats. By the age of 12 he had "invented" a 'push pull' system for propelling a row boat through the use of an inverted umbrella connected to the transom with a simple oar lock which allowed the user to face forward to point the boat toward its destination. Later in life Fuller took exception to the term "invention". Years later, he decided that this sort of experience had provided him with not only an interest in design, but also a habit of being familiar with and knowledgeable about the materials that his later projects would require. Fuller earned a machinist's certification, and knew how to use the press brake, stretch press, and other tools and equipment used in the sheet metal trade.[3] Education Fuller attended Milton Academy in Massachusetts, and after that began studying at Harvard University, where he was affiliated with Adams House. He was expelled from Harvard twice: first for spending all his money partying with a vaudeville troupe, and then, after having been readmitted, for his "irresponsibility and lack of interest." By his own appraisal, he was a non-conforming misfit in the fraternity environment.[3] Wartime experience Between his sessions at Harvard, Fuller worked in Canada as a mechanic in a textile mill, and later as a laborer in the meat-packing industry. He also served in the U.S. Navy in World War I, as a shipboard radio operator, as an editor of a publication, and as a crash rescue boat commander. After discharge, he worked again in the meat packing industry, acquiring management experience. In 1917, he married Anne Hewlett. During the early 1920s, he and his father-in-law developed the Stockade Building System for producing light-weight, weatherproof, and fireproof housing—although the company would ultimately fail[3] in 1927.[4] Depression and epiphany Buckminster Fuller recalled 1927 as a pivotal year of his life. Fuller was still feeling responsible for the death of his daughter Alexandra, who had died in 1922 from complications from polio and spinal meningitis[5] just prior to her fourth birthday.[6] Fuller felt a personal responsibility for her death, wondering if her death may have been caused by the damp and drafty home which the Fullers had been living in.[6] This provided motivation for Fuller's involvement in Stockade Building Systems, a business which aimed to provide affordable, efficient housing.[6] In 1927 Fuller, then aged 32, lost his job as president of Stockade. The Fuller family had no savings to fall back upon, and the birth of their daughter Allegra in 1927 added to the financial challenges. Fuller was drinking heavily and reflecting upon the solution to his family's struggles on long walks around Chicago. During the autumn of 1927, Fuller contemplated suicide, so that his family could benefit from a life insurance payment.[7] Fuller said that he had experienced a profound incident which would provide direction and purpose for his life. He felt as though he was suspended several feet above the ground enclosed in a white sphere of light. A voice spoke directly to Fuller, and declared: From now on you need never await temporal attestation to your thought. You think the truth. You do not have the right to eliminate yourself. You do not belong to you. You belong to Universe. Your significance will remain forever obscure to you, but you may assume that you are fulfilling your role if you apply yourself to converting your experiences to the highest advantage of others.[8] Fuller stated that this experience led to a profound re-examination of his life. He ultimately chose to embark on "an experiment, to find what a single individual [could] contribute to changing the world and benefiting all humanity."[9] Speaking to audiences later in life, Fuller would regularly recount the story of his Lake Michigan experience, and its transformative impact on his life.[6] Historians have been unable to identify direct evidence for this experience within the 1927 papers of Fuller's Chronofile archives, housed at Stanford University. Stanford historian Barry Katz suggests that the suicide story may be a myth which Fuller constructed later in life, to summarize this formative period of his career.[10] Recovery In 1927 Fuller resolved to think independently which included a commitment to "the search for the principles governing the universe and help advance the evolution of humanity in accordance with them... finding ways of doing more with less to the end that all people everywhere can have more and more."[citation needed] By 1928, Fuller was living in Greenwich Village and spending much of his time at the popular café Romany Marie's,[11] where he had spent an evening in conversation with Marie and Eugene O'Neill several years earlier.[12] Fuller accepted a job decorating the interior of the café in exchange for meals,[11] giving informal lectures several times a week,[12][13] and models of the Dymaxion house were exhibited at the café. Isamu Noguchi arrived during 1929—Constantin Brâncuși, an old friend of Marie's,[14] had directed him there[11]—and Noguchi and Fuller were soon collaborating on several projects,[13][15] including the modeling of the Dymaxion car based on recent work by Aurel Persu.[16] It was the beginning of their lifelong friendship. Geodesic domes Fuller taught at Black Mountain College in North Carolina during the summers of 1948 and 1949,[17] serving as its Summer Institute director in 1949. There, with the support of a group of professors and students, he began reinventing a project that would make him famous: the geodesic dome. Although the geodesic dome had been created some 30 years earlier by Dr. Walther Bauersfeld, Fuller was awarded United States patents. He is credited for popularizing this type of structure. One of his early models was first constructed in 1945 at Bennington College in Vermont, where he frequently lectured. In 1949, he erected his first geodesic dome building that could sustain its own weight with no practical limits. It was 4.3 meters (14 feet) in diameter and constructed of aluminum aircraft tubing and a vinyl-plastic skin, in the form of an icosahedron. To prove his design, and to awe non-believers, Fuller suspended from the structure's framework several students who had helped him build it. The U.S. government recognized the importance of his work, and employed his firm Geodesics, Inc. in Raleigh, North Carolina to make small domes for the Marines. Within a few years there were thousands of these domes around the world. His first "continuous tension – discontinuous compression" geodesic dome (full sphere in this case) was constructed at the University of Oregon Architecture School in 1959 with the help of students.[18] These continuous tension – discontinuous compression structures featured single force compression members (no flexure or bending moments) that did not touch each other and were 'suspended' by the tensional members. Best-known work For the next half-century, Fuller developed many ideas, designs and inventions, particularly regarding practical, inexpensive shelter and transportation. He documented his life, philosophy and ideas scrupulously by a daily diary (later called the Dymaxion Chronofile), and by twenty-eight publications. Fuller financed some of his experiments with inherited funds, sometimes augmented by funds invested by his collaborators, one example being the Dymaxion car project. World stage The Montreal Biosphère by Buckminster Fuller, 1967 International recognition began with the success of huge geodesic domes during the 1950s. Fuller lectured at NC State University in Raleigh in 1949, where he met James Fitzgibbon, who would become a close friend and colleague. Fitzgibbon was director of Geodesics, Inc. and Synergetics, Inc. the first licensees to design geodesic domes. Thomas C. Howard was lead designer, architect and engineer for both companies. From 1959 to 1970, Fuller taught at Southern Illinois University Carbondale (SIU). Beginning as an assistant professor, he gained full professorship in 1968, in the School of Art and Design. Working as a designer, scientist, developer, and writer, he lectured for many years around the world. He collaborated at SIU with the designer John McHale. In 1965, Fuller inaugurated the World Design Science Decade (1965 to 1975) at the meeting of the International Union of Architects in Paris, which was, in his own words, devoted to "applying the principles of science to solving the problems of humanity." Later in his SIU tenure, Fuller was also a visiting professor at SIU Edwardsville, where he designed the dome for the campus Religious Center.[19] Buckminster Fuller, lecture tour 1972-3, University of California at Santa Barbara. Fuller believed human societies would soon rely mainly on renewable sources of energy, such as solar- and wind-derived electricity. He hoped for an age of "omni-successful education and sustenance of all humanity." Fuller referred to himself as "the property of universe" and during one radio interview he gave later in life, declared himself and his work "the property of all humanity". For his lifetime of work, the American Humanist Association named him the 1969 Humanist of the Year. In 1976, Fuller was a key participant at UN Habitat I, the first UN forum on human settlements. Honors Fuller was awarded 28 United States patents[20] and many honorary doctorates. In 1960, he was awarded the Frank P. Brown Medal from The Franklin Institute. He was elected a Fellow of the American Academy of Arts and Sciences in 1968.[21] In 1968 he was elected into the National Academy of Design as an Associate member, and became a full Academician in 1970. In 1970 he received the Gold Medal award from the American Institute of Architects. He also received numerous other awards, including the Presidential Medal of Freedom presented to him on February 23, 1983 by President Ronald Reagan. Last filmed appearance Fuller's last filmed interview took place on April 3, 1983, in which he presented his analysis of Simon Rodia's Watts Towers as a unique embodiment of the structural principles found in nature. Portions of this interview appear in I Build the Tower, a documentary film on Rodia's architectural masterpiece. Death Gravestone (see trim tab) Fuller died on July 1, 1983, 11 days before his 88th birthday. During the period leading up to his death, his wife had been lying comatose in a Los Angeles hospital, dying of cancer. It was while visiting her there that he exclaimed, at a certain point: "She is squeezing my hand!" He then stood up, suffered a heart attack, and died an hour later, at age 87. His wife of 66 years died 36 hours later. They are buried in Mount Auburn Cemetery in Cambridge, Massachusetts. Philosophy and worldview The grandson of Unitarian minister Arthur Buckminster Fuller,[22] R. Buckminster Fuller was also Unitarian.[23] Buckminster Fuller was an early environmental activist. He was very aware of the finite resources the planet has to offer, and promoted a principle that he termed "ephemeralization", which, in essence—according to futurist and Fuller disciple Stewart Brand—Fuller coined to mean "doing more with less".[24] Resources and waste material from cruder products could be recycled into making more valuable products, increasing the efficiency of the entire process. Fuller also introduced synergetics, an encompassing term which he used broadly as a metaphoric language for communicating experiences using geometric concepts and, more specifically, to reference the empirical study of systems in transformation, with an emphasis on total system behavior unpredicted by the behavior of any isolated components. Fuller coined this term long before the term synergy became popular. Fuller was a pioneer in thinking globally, and he explored principles of energy and material efficiency in the fields of architecture, engineering and design.[25][26] He cited François de Chardenedes' opinion that petroleum, from the standpoint of its replacement cost out of our current energy "budget" (essentially, the net incoming solar flux), had cost nature "over a million dollars" per U.S. gallon (US$300,000 per litre) to produce. From this point of view, its use as a transportation fuel by people commuting to work represents a huge net loss compared to their earnings.[27] An encapsulation quotation of his views might be, "There is no energy crisis, only a crisis of ignorance."[28][29][30] Fuller was concerned about sustainability and about human survival under the existing socio-economic system, yet remained optimistic about humanity's future. Defining wealth in terms of knowledge, as the "technological ability to protect, nurture, support, and accommodate all growth needs of life," his analysis of the condition of "Spaceship Earth" caused him to conclude that at a certain time during the 1970s, humanity had attained an unprecedented state. He was convinced that the accumulation of relevant knowledge, combined with the quantities of major recyclable resources that had already been extracted from the earth, had attained a critical level, such that competition for necessities was not necessary anymore. Cooperation had become the optimum survival strategy. "Selfishness," he declared, "is unnecessary and hence-forth unrationalizable.... War is obsolete."[31] He criticized previous utopian schemes as too exclusive, and thought this was a major source of their failure. To work, he thought that a utopia needed to include everyone.[32] So it is not surprising that he and others of his stature were attracted by Korzybski's ideas in general semantics. General semantics is a discipline of mind that seeks to unify persons and nations by changing their worldview reaction and the philosophy of their expression. In the 1950s Fuller attended seminars and workshops organized by the Institute of General Semantics, and he delivered the annual Alfred Korzybski Memorial Lecture in 1955.[33] Korzybski is mentioned in the Introduction of his book Synergetics. The two gentlemen shared a remarkable amount of similarity in their formulations of general semantics.[34] In his 1970 book I Seem To Be a Verb, he wrote: "I live on Earth at present, and I don't know what I am. I know that I am not a category. I am not a thing—a noun. I seem to be a verb, an evolutionary process—an integral function of the universe." Fuller wrote that the natural analytic geometry of the universe was based on arrays of tetrahedra. He developed this in several ways, from the close-packing of spheres and the number of compressive or tensile members required to stabilize an object in space. One confirming result was that the strongest possible homogeneous truss is cyclically tetrahedral.[35] He had become a guru of the design, architecture, and 'alternative' communities, such as Drop City, the community of experimental artists to whom he awarded the 1966 "Dymaxion Award" for "poetically economic" domed living structures. Major design projects A geodesic sphere The geodesic dome Fuller was most famous for his lattice shell structures – geodesic domes, which have been used as parts of military radar stations, civic buildings, environmental protest camps and exhibition attractions. An examination of the geodesic design by Walther Bauersfeld for the Zeiss-Planetarium, built some 20 years prior to Fuller's work, reveals that Fuller's Geodesic Dome patent (U.S. 2,682,235; awarded in 1954), follows the same design as Bauersfeld's.[36] Their construction is based on extending some basic principles to build simple "tensegrity" structures (tetrahedron, octahedron, and the closest packing of spheres), making them lightweight and stable. The geodesic dome was a result of Fuller's exploration of nature's constructing principles to find design solutions. The Fuller Dome is referenced in the Hugo Award-winning novel Stand on Zanzibar by John Brunner, in which a geodesic dome is said to cover the entire island of Manhattan, and it floats on air due to the hot-air balloon effect of the large air-mass under the dome (and perhaps its construction of lightweight materials).[37] Transportation In the 1930s, Fuller designed and built prototypes of what he hoped would be a safer, aerodynamic car, which he called the Dymaxion. ("Dymaxion" is said to be a syllabic abbreviation of dynamic maximum tension, or possibly of dynamic maximum ion.)[38] Fuller worked with professional colleagues for three years beginning in 1932 on a design idea Fuller had derived from aircraft technologies. The three prototype cars were different from anything being sold at the time. They had three wheels: two front drive wheels and one rear, steered wheel. The engine was in the rear, and the chassis and body were original designs. The aerodynamic, somewhat tear-shaped body was large enough to seat eleven people and was about 18 feet (5.5 m) long, resembling a blend of a light aircraft (without wings) and a Volkswagen van of 1950s vintage. All three prototypes were essentially a mini-bus, and its concept long predated the Volkswagen Type 2 mini-bus conceived in 1947 by Ben Pon. Dymaxion car Despite its length, and due to its three-wheel design, the Dymaxion turned on a small radius and could easily be parked in a tight space. The prototypes were efficient in fuel consumption for their day, traveling about 30 miles per gallon.[39] Fuller contributed a great deal of his own money to the project, in addition to funds from one of his professional collaborators. An industrial investor was also very interested in the concept. Fuller anticipated that the cars could travel on an open highway safely at up to about 160 km/h (99 mph), but, in practice, they were difficult to control and steer above 80 km/h (50 mph). Investors backed out and research ended after one of the prototypes was involved in a high-profile collision that resulted in a fatality. In 2007, Time Magazine reported on the Dymaxion as one of the "50 worst cars of all time".[40] In 1943, industrialist Henry J. Kaiser asked Fuller to develop a prototype for a smaller car, but Fuller's five-seater design was never developed further. Housing Question book-new.svg This section does not cite any references or sources. Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed. (December 2010) A Dymaxion house at The Henry Ford. Fuller's energy-efficient and inexpensive Dymaxion house garnered much interest, but has never been produced. Here the term "Dymaxion" is used in effect to signify a "radically strong and light tensegrity structure". One of Fuller's Dymaxion Houses is on display as a permanent exhibit at The Henry Ford in Dearborn, Michigan. Designed and developed during the mid-1940s, this prototype is a round structure (not a dome), shaped something like the flattened "bell" of certain jellyfish. It has several innovative features, including revolving dresser drawers, and a fine-mist shower that reduces water consumption. According to Fuller biographer Steve Crooks, the house was designed to be delivered in two cylindrical packages, with interior color panels available at local dealers. A circular structure at the top of the house was designed to rotate around a central mast to use natural winds for cooling and air circulation. Conceived nearly two decades before, and developed in Wichita, Kansas, the house was designed to be lightweight and adapted to windy climates. It was to be inexpensive to produce and purchase, and assembled easily. It was to be produced using factories, workers, and technologies that had produced World War II aircraft. It was ultramodern-looking at the time, built of metal, and sheathed in polished aluminum. The basic model enclosed 90 m2 (970 sq ft) of floor area. Due to publicity, there were many orders during the early Post-War years, but the company that Fuller and others had formed to produce the houses failed due to management problems. In 1969, Fuller began the Otisco Project, named after its location in Otisco, New York. The project developed and demonstrated concrete spray technology used in conjunction with mesh covered wireforms as a viable means of producing large scale, load bearing spanning structures built on site without the use of pouring molds, other adjacent surfaces or hoisting. The initial construction method used a circular concrete footing in which anchor posts were set. Tubes cut to length and with ends flattened were then bolted together to form a duodeca-rhombicahedron (22-sided hemisphere) geodesic structure with spans ranging to 60 feet (18 m). The form was then draped with layers of ¼-inch wire mesh attached by twist ties. Concrete was then sprayed onto the structure, building up a solid layer which, when cured, would support additional concrete to be added by a variety of traditional means. Fuller referred to these buildings as monolithic ferroconcrete geodesic domes. The tubular frame form proved too problematic when it came to setting windows and doors, and was abandoned. The second method used iron rebar set vertically in the concrete footing and then bent inward and welded in place to create the dome's wireform structure and performed satisfactorily. Domes up to three stories tall built with this method proved to be remarkably strong. Other shapes such as cones, pyramids and arches proved equally adaptable. The project was enabled by a grant underwritten by Syracuse University and sponsored by US Steel (rebar), the Johnson Wire Corp, (mesh) and Portland Cement Company (concrete). The ability to build large complex load bearing concrete spanning structures in free space would open many possibilities in architecture, and is considered as one of Fuller's greatest contributions. Dymaxion map and World Game Fuller also designed an alternative projection map, called the Dymaxion map. This was designed to show Earth's continents with minimum distortion when projected or printed on a flat surface. In the 1960s, Fuller developed the World Game, a collaborative simulation game played on a 70-by-35-foot Dymaxion map,[41] in which players attempt to solve world problems.[42][43] The object of the simulation game is, in Fuller's words, to “make the world work, for 100% of humanity, in the shortest possible time, through spontaneous cooperation, without ecological offense or the disadvantage of anyone.”[44] Quirks Fuller was a frequent flier, often crossing time zones. He famously wore three watches; one for the current zone, one for the zone he had departed, and one for the zone he was going to.[45][46] Fuller also noted that a single sheet of newsprint, inserted over a shirt and under a suit jacket, provided completely effective heat insulation during long flights.[citation needed] He experimented with polyphasic sleep, which he called Dymaxion sleep. In 1943, he told Time Magazine that he had slept only two hours a day for two years. He quit the schedule because it conflicted with his business associates' sleep habits, but stated that Dymaxion sleep could help the United States win World War II.[47] Fuller documented his life copiously from 1915 to 1983, approximately 270 feet (82 m) of papers in a collection called the Dymaxion Chronofile. He also kept copies of all incoming and outgoing correspondence. The enormous Fuller Collection is currently housed at Stanford University. If somebody kept a very accurate record of a human being, going through the era from the Gay 90s, from a very different kind of world through the turn of the century—as far into the twentieth century as you might live. I decided to make myself a good case history of such a human being and it meant that I could not be judge of what was valid to put in or not. I must put everything in, so I started a very rigorous record.[48][49] In his youth, Fuller experimented with several ways of presenting himself: R. B. Fuller, Buckminster Fuller, but as an adult finally settled on R. Buckminster Fuller, and signed his letters as such. However, he preferred to be addressed as simply "Bucky". Language and neologisms Buckminster Fuller spoke and wrote in a unique style and said it was important to describe the world as accurately as possible.[50] Fuller often created long run-on sentences and used unusual compound words (omniwell-informed, intertransformative, omni-interaccommodative, omniself-regenerative) as well as terms he himself invented.[51] Fuller used the word Universe without the definite or indefinite articles (the or a) and always capitalized the word. Fuller wrote that "by Universe I mean: the aggregate of all humanity's consciously apprehended and communicated (to self or others) Experiences."[52] The words "down" and "up", according to Fuller, are awkward in that they refer to a planar concept of direction inconsistent with human experience. The words "in" and "out" should be used instead, he argued, because they better describe an object's relation to a gravitational center, the Earth. "I suggest to audiences that they say, 'I'm going "outstairs" and "instairs."' At first that sounds strange to them; They all laugh about it. But if they try saying in and out for a few days in fun, they find themselves beginning to realize that they are indeed going inward and outward in respect to the center of Earth, which is our Spaceship Earth. And for the first time they begin to feel real 'reality.'"[53] "World-around" is a term coined by Fuller to replace "worldwide". The general belief in a flat Earth died out in classical antiquity, so using "wide" is an anachronism when referring to the surface of the Earth—a spheroidal surface has area and encloses a volume but has no width. Fuller held that unthinking use of obsolete scientific ideas detracts from and misleads intuition. Other neologisms collectively invented by the Fuller family, according to Allegra Fuller Snyder, are the terms "sunsight" and "sunclipse", replacing "sunrise" and "sunset" to overturn the geocentric bias of most pre-copernican celestial mechanics. Fuller also invented the word "livingry," as opposed to weaponry (or "killingry"), to mean that which is in support of all human, plant, and Earth life. "The architectural profession—civil, naval, aeronautical, and astronautical—has always been the place where the most competent thinking is conducted regarding livingry, as opposed to weaponry."[54] As well as contributing significantly to the development of tensegrity technology, Fuller invented the term "tensegrity" from tensional integrity. "Tensegrity describes a structural-relationship principle in which structural shape is guaranteed by the finitely closed, comprehensively continuous, tensional behaviors of the system and not by the discontinuous and exclusively local compressional member behaviors. Tensegrity provides the ability to yield increasingly without ultimately breaking or coming asunder."[55] "Dymaxion" is a portmanteau of "dynamic maximum tension". It was invented about 1929 by two admen at Marshall Field's department store in Chicago to describe Fuller's concept house, which was shown as part of a house of the future store display. They created the term utilizing three words that Fuller used repeatedly to describe his design – dynamic, maximum, and ion.[56] Fuller also helped to popularise the concept of Spaceship Earth: "The most important fact about Spaceship Earth: an instruction manual didn't come with it."[57] Concepts and buildings His concepts and buildings include: Dymaxion house (1928) Aerodynamic Dymaxion car (1933) Prefabricated compact bathroom cell (1937) Dymaxion deployment unit (1940) Dymaxion map of the world (1946) Buildings (1943)[clarification needed] Tensegrity structures (1949) Geodesic dome for Ford Motor Company (1953) Patent on geodesic domes (1954) The World Game (1961) and the World Game Institute (1972) Patent on octet truss (1961) Montreal Biosphère (1967), United States pavilion at Expo 67 Comprehensive anticipatory design science[58][59] Influence and legacy Among the many people who were influenced by Buckminster Fuller are: Constance Abernathy,[60] Ruth Asawa,[61] J. Baldwin,[62][63] Michael Ben-Eli,[64] Pierre Cabrol,[65] Joseph Clinton,[66] Peter Floyd,[64] Medard Gabel,[67] Michael Hays,[64] David Johnston,[68] Robert Kiyosaki,[69] Peter Jon Pearce,[64] Shoji Sadao,[64] Edwin Schlossberg,[64] Kenneth Snelson,[61][70][71] Robert Anton Wilson[72] and Stewart Brand.[73] An allotrope of carbon, fullerene—and a particular molecule of that allotrope C60 (buckminsterfullerene or buckyball) has been named after him. The Buckminsterfullerene molecule, which consists of 60 carbon atoms, very closely resembles a spherical version of Fuller's geodesic dome. The 1996 Nobel prize in chemistry was given to Kroto, Curl, and Smalley for their discovery of the fullerene.[74] He is quoted in the lyric of "The Tower Of Babble" in the musical "Godspell:" "Man is a complex of patterns and processes."[75] On July 12, 2004, the United States Post Office released a new commemorative stamp honoring R. Buckminster Fuller on the 50th anniversary of his patent for the geodesic dome and by the occasion of his 109th birthday. Fuller was the subject of two documentary films: The World of Buckminster Fuller (1971) and Buckminster Fuller: Thinking Out Loud (1996). Additionally, filmmaker Sam Green and the band Yo La Tengo collaborated on a 2012 "live documentary" about Fuller, The Love Song of R. Buckminster Fuller.[76] In June 2008, the Whitney Museum of American Art presented "Buckminster Fuller: Starting with the Universe", the most comprehensive retrospective to date of his work and ideas.[77] The exhibition traveled to the Museum of Contemporary Art, Chicago in 2009. It presented a combination of models, sketches, and other artifacts, representing six decades of the artist's integrated approach to housing, transportation, communication, and cartography. It also featured the extensive connections with Chicago from his years spent living, teaching, and working in the city.[78] In 2009 Noel Murphy wrote and performed the one-man show Buckminster Fuller LIVE! and then later on in 2010 Murphy directed the documentary film, The Last Dymaxion: Buckminster Fuller's Dream Restored.[citation needed] In 2012, The San Francisco Museum of Modern Art hosted "The Utopian Impulse" – a show about Buckminster Fuller's influence in the Bay Area. Featured were concepts, inventions and designs for creating "free energy" from natural forces, and for sequestering carbon from the atmosphere. The show ran January through July.[79] Patents (from the Table of Contents of Inventions: The Patented Works of R. Buckminster Fuller (1983) ISBN 0-312-43477-4) 1927 U.S. Patent 1,633,702 Stockade: building structure 1927 U.S. Patent 1,634,900 Stockade: pneumatic forming process 1928 (Application Abandoned) 4D house 1937 U.S. Patent 2,101,057 Dymaxion car 1940 U.S. Patent 2,220,482 Dymaxion bathroom 1944 U.S. Patent 2,343,764 Dymaxion deployment unit (sheet) 1944 U.S. Patent 2,351,419 Dymaxion deployment unit (frame) 1946 U.S. Patent 2,393,676 Dymaxion map 1946 (No Patent) Dymaxion house (Wichita) 1954 U.S. Patent 2,682,235 Geodesic dome 1959 U.S. Patent 2,881,717 Paperboard dome 1959 U.S. Patent 2,905,113 Plydome 1959 U.S. Patent 2,914,074 Catenary (geodesic tent) 1961 U.S. Patent 2,986,241 Octet truss 1962 U.S. Patent 3,063,521 Tensegrity 1963 U.S. Patent 3,080,583 Submarisle (undersea island) 1964 U.S. Patent 3,139,957 Aspension (suspension building) 1965 U.S. Patent 3,197,927 Monohex (geodesic structures) 1965 U.S. Patent 3,203,144 Laminar dome 1965 (Filed – No Patent) Octa spinner 1967 U.S. Patent 3,354,591 Star tensegrity (octahedral truss) 1970 U.S. Patent 3,524,422 Rowing needles (watercraft) 1974 U.S. Patent 3,810,336 Geodesic hexa-pent 1975 U.S. Patent 3,863,455 Floatable breakwater 1975 U.S. Patent 3,866,366 Non-symmetrical tensegrity 1979 U.S. Patent 4,136,994 Floating breakwater 1980 U.S. Patent 4,207,715 Tensegrity truss 1983 U.S. Patent 4,377,114 Hanging storage shelf unit |
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