Fuller published more than 30 books, coining or popularizing terms such as "Spaceship Earth", "Dymaxion" house/car, ephemeralization, synergetic, and "tensegrity". 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 structural and mathematical resemblance to geodesic spheres.
Richard Buckminster Fuller
July 12, 1895
|Died||July 1, 1983 (aged 87)|
Los Angeles, United States
|Education||Harvard University (expelled)|
|Occupation||Designer, author, inventor|
Anne Hewlett (m. 1917)
|Children||Allegra Fuller Snyder|
Fuller was born on July 12, 1895, in Milton, Massachusetts, the son of Richard Buckminster Fuller and Caroline Wolcott Andrews, and grand-nephew of Margaret Fuller, an American journalist, critic, and women's rights advocate associated with the American transcendentalism movement. The unusual middle name, Buckminster, was an ancestral family name. As a child, Richard Buckminster Fuller tried numerous variations of his name. He used to sign his name differently each year in the guest register of his family summer vacation home at Bear Island, Maine. He finally settled on R. Buckminster Fuller.
Fuller spent much of his youth on Bear Island, in Penobscot Bay off the coast of Maine. He attended Froebelian Kindergarten. He disagreed with the way geometry was taught in school, being unable to experience for himself that a chalk dot on the blackboard represented an "empty" mathematical point, or that a line could stretch off to infinity. To him these were illogical, and led to the his work on synergetics. He often made items from materials he found in the woods, and sometimes made his own tools. He experimented with designing a new apparatus for human propulsion of small boats. By age 12, he had invented a 'push pull' system for propelling a rowboat by 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.
Fuller attended Milton Academy in Massachusetts, and after that began studying at Harvard College, 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.
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 in 1927.
Buckminster Fuller recalled 1927 as a pivotal year of his life. His daughter Alexandra had died in 1922 of complications from polio and spinal meningitis just before her fourth birthday. Stanford historian, Barry Katz, found signs that around this time in his life Fuller was suffering from depression and anxiety. Fuller dwelled on his daughter's death, suspecting that it was connected with the Fullers' damp and drafty living conditions. This provided motivation for Fuller's involvement in Stockade Building Systems, a business which aimed to provide affordable, efficient housing.
In 1927, at age 32, Fuller lost his job as president of Stockade. The Fuller family had no savings, and the birth of their daughter Allegra in 1927 added to the financial challenges. Fuller drank heavily and reflected upon the solution to his family's struggles on long walks around Chicago. During the autumn of 1927, Fuller contemplated suicide by drowning in Lake Michigan, so that his family could benefit from a life insurance payment.
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.
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."
Speaking to audiences later in life, Fuller would regularly recount the story of his Lake Michigan experience, and its transformative impact on his life. 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.
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." By 1928, Fuller was living in Greenwich Village and spending much of his time at the popular café Romany Marie's, where he had spent an evening in conversation with Marie and Eugene O'Neill several years earlier. Fuller accepted a job decorating the interior of the café in exchange for meals, giving informal lectures several times a week, and models of the Dymaxion house were exhibited at the café. Isamu Noguchi arrived during 1929—Constantin Brâncuși, an old friend of Marie's, had directed him there—and Noguchi and Fuller were soon collaborating on several projects, including the modeling of the Dymaxion car based on recent work by Aurel Persu. It was the beginning of their lifelong friendship.
Fuller taught at Black Mountain College in North Carolina during the summers of 1948 and 1949, 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 26 years earlier by Dr. Walther Bauersfeld, Fuller was awarded United States patents, even though he neglected to cite Bauersfeld's prior art in his patent applications. 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 lectured often. 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 aluminium aircraft tubing and a vinyl-plastic skin, in the form of an icosahedron. To prove his design, 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 such domes around the world.
Fuller's 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. 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.
For half of a 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.
International recognition began with the success of huge geodesic domes during the 1950s. Fuller lectured at North Carolina 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. Richard Lewontin, a new faculty member in population genetics at North Carolina State University, provided Fuller with computer calculations for the lengths of the domes' edges.
Fuller began working with architect Shoji Sadao in 1954, and in 1964 they co-founded the architectural firm Fuller & Sadao Inc., whose first project was to design the large geodesic dome for the U.S. Pavilion at Expo 67 in Montreal. This building is now the "Montreal Biosphère". In 1962, the artist and searcher John McHale wrote the first monograph on Fuller, published by George Braziller in New York.
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 John McHale. In 1965, they inaugurated the World Design Science Decade (1965 to 1975) at the meeting of the International Union of Architects in Paris, which was, in Fuller's 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.
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.
Fuller was awarded 28 United States patents and many honorary doctorates. In 1960, he was awarded the Frank P. Brown Medal from The Franklin Institute. Fuller was elected as an honorary member of Phi Beta Kappa in 1967, on the occasion of the 50th year reunion of his Harvard class of 1917 (from which he was expelled in his first year). He was elected a Fellow of the American Academy of Arts and Sciences in 1968. 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. In 1976, he received the St. Louis Literary Award from the Saint Louis University Library Associates. He also received numerous other awards, including the Presidential Medal of Freedom presented to him on February 23, 1983, by President Ronald Reagan.
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.
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.
Buckminster Fuller was a Unitarian like his grandfather, Unitarian minister Arthur Buckminster Fuller, He was an early environmental activist. He was aware of the Earth's finite resources, and promoted a principle that he termed "ephemeralization", which according to futurist and Fuller disciple Stewart Brand, he coined to mean "doing more with less". Resources and waste from cruder products could be recycled into making more valuable products, increasing the efficiency of the entire process. Fuller also introduced synergetics, a term which he used broadly as a metaphor for communicating experiences using geometric concepts, and more specifically 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. He cited François de Chardenèdes' 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. An encapsulation quotation of his views might be, "There is no energy crisis, only a crisis of ignorance."
Fuller was concerned about sustainability and 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 had become unnecessary. Cooperation had become the optimum survival strategy. He declared: "selfishness is unnecessary and hence-forth unrationalizable ... War is obsolete." 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.
Fuller was influenced by Alfred Korzybski's idea of general semantics. 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. Korzybski is mentioned in the Introduction of his book Synergetics. The two shared a remarkable amount of similarity in their formulations of general semantics.
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.
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.
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 28 years prior to Fuller's work, reveals that Fuller's Geodesic Dome patent (U.S. 2,682,235; awarded in 1954) is the same design as Bauersfeld's.
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).
The Dymaxion car was a vehicle designed by Fuller, featured prominently at Chicago's 1933-1934 Century of Progress World's Fair. During the Great Depression, Fuller formed the Dymaxion Corporation and built three prototypes with noted naval architect Starling Burgess and a team of 27 workmen — using donated money as well as a family inheritance.
Fuller associated the word Dymaxion with much of his work, a portmanteau of the words dynamic, maximum, and tension to sum up the goal of his study, "maximum gain of advantage from minimal energy input."
The Dymaxion was not an automobile per se, but rather the 'ground-taxying mode' of a vehicle that might one day be designed to fly, land and drive — an "Omni-Medium Transport" for air, land and water. Fuller focused on the landing and taxiing qualities, and noted severe limitations in its handling. The team made constant improvements and refinements to the platform, and Fuller noted the Dymaxion "was an invention that could not be made available to the general public without considerable improvements."
The bodywork was aerodynamically designed for increased fuel efficiency and speed as well as light weight, and its platform featured a lightweight cromoly-steel hinged chassis, rear-mounted V8 engine, front-drive and three-wheels. The vehicle was steered via the third wheel at the rear, capable of 90° steering lock. Thus able to steer in a tight circle, the Dymaxion often caused a sensation, bringing nearby traffic to a halt.
Shortly after launch, a prototype crashed after being hit by another car, killing the Dymaxion's driver. The other car was driven by a local politician and was illegally removed from the accident scene, leaving reporters who arrived subsequently to blame the Dymaxion's unconventional design — though investigations exonerated the prototype. Fuller would himself later crash another prototype with his young daughter aboard.
Despite courting the interest of important figures from the auto industry, Fuller used his family inheritance to finish the second and third prototypes — eventually selling all three, dissolving Dymaxion Corporation and maintaining the Dymaxion was never intended as a commercial venture. One of the three original prototypes survives.
Fuller's energy-efficient and inexpensive Dymaxion house garnered much interest, but only two prototypes were ever 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 Museum 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 earlier, and developed in Wichita, Kansas, the house was designed to be lightweight, adapted to windy climates, cheap to produce and easy to assemble. Because of its light weight and portability, the Dymaxion House was intended to be the ideal housing for individuals and families who wanted the option of easy mobility. The design included a "Go-Ahead-With-Life Room" stocked with maps, charts, and helpful tools for travel "through time and space." It was to be produced using factories, workers, and technologies that had produced World War II aircraft. It looked ultramodern 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 1967, Fuller developed a concept for an offshore floating city named Triton City and published a report on the design the following year. Models of the city aroused the interest of President Lyndon B. Johnson who, after leaving office, had them placed in the Lyndon Baines Johnson Library and Museum.
In 1969, Fuller began the Otisco Project, named after its location in Otisco, New York. The project developed and demonstrated concrete spray with mesh-covered wireforms for producing large-scale, load-bearing spanning structures built on-site, without the use of pouring molds, other adjacent surfaces or hoisting. The initial 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 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. However, the tubular frame form proved problematic for setting windows and doors. It was replaced by an 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.
Fuller, along with co-cartographer Shoji Sadao, 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, in which players attempt to solve world problems. 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."
Buckminster Fuller wore thick-lensed spectacles to correct his extreme hyperopia, a condition that went undiagnosed for the first five years of his life. Fuller's hearing was damaged during his Naval service in World War I and deteriorated during the 1960s. After experimenting with bullhorns as hearing aids during the mid-1960s, Fuller adopted electronic hearing aids from the 1970s onward.:397
In public appearances, Fuller always wore dark-colored suits, appearing like "an alert little clergyman".:18 Previously, he had experimented with unconventional clothing immediately after his 1927 epiphany, but found that breaking social fashion customs made others devalue or dismiss his ideas.:6:15 Fuller learned the importance of physical appearance as part of one's credibility, and decided to become "the invisible man" by dressing in clothes that would not draw attention to himself.:6:15 With self-deprecating humor, Fuller described this black-suited appearance as resembling a "second-rate bank clerk".:6:15
Writer Guy Davenport met him in 1965 and described him thus:
He's a dwarf, with a worker's hands, all callouses and squared fingers. He carries an ear trumpet, of green plastic, with WORLD SERIES 1965 printed on it. His smile is golden and frequent; the man's temperament is angelic, and his energy is just a touch more than that of [Robert] Gallway (champeen runner, footballeur, and swimmer). One leg is shorter than the other, and the prescription shoe worn to correct the imbalance comes from a country doctor deep in the wilderness of Maine. Blue blazer, Khrushchev trousers, and a briefcase full of Japanese-made wonderments; ...
Following his global prominence from the 1960s onward, Fuller became a frequent flier, often crossing time zones to lecture. In the 1960s and 1970s, he wore three watches simultaneously; one for the time zone of his office in Carbondale, one for the time zone of the location he would next visit, and one for the time zone he was currently in.:290 In the 1970s, Fuller was only in 'homely' locations (his personal home in Carbondale, Illinois; his holiday retreat in Bear Island, Maine; his daughter's home in Pacific Palisades, California) roughly 65 nights per year—the other 300 nights were spent in hotel beds in the locations he visited on his lecturing and consulting circuits.:290
In the 1920s, Fuller experimented with polyphasic sleep, which he called Dymaxion sleep. Inspired by the sleep habits of animals such as dogs and cats,:133 Fuller worked until he was tired, and then slept short naps. This generally resulted in Fuller sleeping 30-minute naps every 6 hours.:160 This allowed him "twenty-two thinking hours a day", which aided his work productivity.:160 Fuller reportedly kept this Dymaxion sleep habit for two years, before quitting the routine because it conflicted with his business associates' sleep habits. Despite no longer personally partaking in the habit, in 1943 Fuller suggested Dymaxion sleep as a strategy that the United States could adopt to win World War II.
Despite only practicing true polyphasic sleep for a period during the 1920s, Fuller was known for his stamina throughout his life. He was described as "tireless":53 by Barry Farrell in Life magazine, who noted that Fuller stayed up all night replying to mail during Farrell's 1970 trip to Bear Island.:55 In his seventies, Fuller generally slept for 5–8 hours per night.:160
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.
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".
Buckminster Fuller spoke and wrote in a unique style and said it was important to describe the world as accurately as possible. 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.
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."
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.'"
"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."
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."
"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 tension.
His concepts and buildings include:
Among the many people who were influenced by Buckminster Fuller are: Constance Abernathy, Ruth Asawa, J. Baldwin, Michael Ben-Eli, Pierre Cabrol, John Cage, Joseph Clinton, Peter Floyd, Medard Gabel, Michael Hays, David Johnston, Peter Jon Pearce, Shoji Sadao, Edwin Schlossberg, Kenneth Snelson, Robert Anton Wilson and Stewart Brand.
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.
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. The stamp's design replicated the January 10, 1964 cover of Time Magazine.
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.
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. 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.
In 2009, a number of US companies decided to repackage spherical magnets and sell them as toys. One company, Maxfield & Oberton, told The New York Times that they saw the product on YouTube and decided to repackage them as "Buckyballs", because the magnets could self-form and hold together in shapes reminiscent of the Fuller inspired buckyballs. The buckyball toy launched at New York International Gift Fair in 2009 and sold in the hundreds of thousands, but by 2010 began to experience problems with toy safety issues and the company was forced to recall the packages that were labelled as toys.
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.
In a different note, Fuller's quote "Those who play with the Devil's toys, will be brought by degree to wield his sword" was used and referenced as the first display seen in the strategy sci-fi video game XCOM: Enemy Within developed by Firaxis Games.
The House of Tomorrow, is a 2017 American independent drama film written and directed by Peter Livolsi, based on Peter Bognanni's 2010 novel of the same name, featuring Asa Butterfield, Alex Wolff, Nick Offerman, Maude Apatow, and Ellen Burstyn. Burstyn's character is obsessed by all things Buckminster Fuller providing retro-futurist tours of her geodesic home, including authentic video of Buckminster Fuller talking and sailing with Ellen Burstyn, who'd actually befriended him in real life.
(from the Table of Contents of Inventions: The Patented Works of R. Buckminster Fuller (1983) ISBN 0-312-43477-4)
However, in 1927 his own financial difficulties forced Mr. Hewlett to sell his stock in the company. Within weeks Stockade Building Systems became a subsidiary of Celotex Corporation, whose primary motivation was akin to that of other conventional companies: making a profit. Celotex management took one look at Stockade's financial records and called for a complete overhaul of the company. The first casualty of the transition was Stockade's controversial president [Buckminster Fuller, who was fired].
... during 1927, Bucky found himself unemployed with a new daughter to support as winter was approaching. With no steady income the Fuller family was living beyond its means and falling further and further into debt. Searching for solace and escape, Bucky continued drinking and carousing. He also tended to wander aimlessly through the Chicago streets pondering his situation. It was during one such walk that he ventured down to the shore of Lake Michigan on a particularly cold autumn evening and seriously contemplated swimming out until he was exhausted and ending his life.
Noguchi, then twenty-five, had already had enough influences for a lifetime — from birth in Los Angeles, to childhood in Japan and the Midwest, to premedical classes at Columbia, to academic sculpture on the Lower East Side, to Brancusi's circle in Paris. Now his exposure to Modernism and "the American century" received a decidedly New York influence.
"Only two years before, on the brink of suicide, Fuller had decided to remake his life and the world. Why not begin on Minetta Street? In 1929, he was shopping around his first major design, plans for an inexpensive, modular home that others air-lift right where desired. Now, in exchange for meals, he took on the interior decoration and chairs for Marie's new location. He must have stood out in person, too, ever the talkative, handsome visionary in tie and starched collar."
See also: Glueck, Grace (May 19, 2006). "The Architect and the Sculptor: A Friendship of Ideas". The New York Times. Retrieved April 27, 2010.
"It no longer has to be you or me. Selfishness is unnecessary and hence-forth unrationalizable as mandated by survival. War is obsolete.
For his dissertation showing some relationships between formulations of Alfred Korzybski and Buckminster Fuller, plus documenting meetings and associations of the two gentlemen, he was given the 1973 Irving J. Lee Award in General Semantics offered by the International Society for General Semantics.
In 1934, Fuller had interested auto magnate Walter Chrysler in financing his Dymaxion car, a durable, three-wheeled, aerodynamic land vehicle modeled after an airplane fuselage. Fuller had built three models that drew enthusiastic crowds wherever. Like all Fuller's other projects (he was responsible for refining and developing the geodesic dome, the first practical dome structure) it was inexpensive, durable and energy efficient; Fuller worked diligently to cut back the amount of material and energy used by any product he designed. "You've produced exactly the car I've always wanted to produce," the mechanically apt Chrysler told him. Then Chrysler noted ruefully, Fuller had taken one-third the time and one fourth the money Chrysler's corporation usually spent producing prototypes — prototypes Chrysler himself usually hated in the end. For a few months, it had seemed Chrysler would go ahead and introduce Fuller's car. But the banks that financed Chrysler's wholesale distributors vetoed the move by threatening to call in their loans. The bankers were afraid (or so Fuller said years later) that an advanced new design would diminish the value of the unsold motor vehicles in dealers' showrooms. For every new car sold, five used cars had to be sold to finance the distribution and production chain, and those cars would not sell if Fuller's invention made them obsolete.
Buckminster Fuller is an EP by Jersey-born singer-songwriter Nerina Pallot, released on 13 February 2009 as an exclusive CD for her fans that were attending the "flurry of gigs" in February 2009. Nerina played in Holmfirth, Buxton, London and Exeter.Buckminster Fuller Challenge
The Buckminster Fuller Challenge is an annual international design competition that awards $100,000 to the most comprehensive solution to a pressing global problem. The Challenge was launched in 2007 and is a program of The Buckminster Fuller Institute. The competition, open to designers, artists, architects, students, environmentalists, and organizations world-wide, has been dubbed "Socially-Responsible Design's Highest Award" by Metropolis Magazine.According to the Buckminster Fuller Challenge website: "Winning solutions are regionally specific yet globally applicable and present a truly comprehensive, anticipatory, integrated approach to solving the world's complex problems." Furthermore, the criteria of the Challenge calls not for a stand-alone solution, but an integrated strategy that addresses social, environmental, economic and cultural issues. This is aligned with the design approach of Buckminster Fuller, which he referred to as "comprehensive anticipatory design science".Winners of the Buckminster Fuller Challenge include John Todd (2008), MIT's Smart Cities Group (2009),
, Allan Savory and the Africa Center for Holistic management (2010), Blue Ventures (2011) and the Living Building Challenge (2012).Each year's winner is ultimately decided by an international jury of renowned whole systems thinkers and practitioners of sustainability. Former jury members include Jose Zaglul, Alan Kay, Mitchell Joachim, Adam Bly, Jamais Cascio, Nicholas Grimshaw, Hunter Lovins, William McDonough, Janine Benyus, and Danny Hillis.
Although there is only one winner per year, the majority of the entries received are featured on the Buckminster Fuller Challenge website within a fully searchable database known as the Idea Index.Cloud Nine (tensegrity sphere)
Cloud Nine is the name Buckminster Fuller gave to his proposed airborne habitats created from giant geodesic spheres, which might be made to levitate by slightly heating the air inside above the ambient temperature.Geodesic spheres (structures of triangular components arranged to make a sphere) become stronger as they become bigger, due to how they distribute stress over their surfaces. As a sphere gets bigger, the volume it encloses grows much faster than the mass of the enclosing structure itself. Fuller suggested that the mass of a mile-wide geodesic sphere would be negligible compared to the mass of the air trapped within it. He suggested that if the air inside such a sphere were heated even by one degree higher than the ambient temperature of its surroundings, the sphere could become airborne. He calculated that such a balloon could lift a considerable mass, and hence that 'mini-cities' or airborne towns of thousands of people could be built in this way.
A Cloud Nine could be tethered, or free-floating, or maneuverable so that it could migrate in response to climatic and environmental conditions, such as providing emergency shelters.Current solar income
The current solar income of the Earth, or an ecozone or ecoregion or any area, is the amount of solar energy that falls on it as sunlight. This is thought important in some branches of green economics, as the ultimate measure of renewable energy.
Buckminster Fuller first described the concept in his 1970 paper Cosmic Costing, contrasting the photosynthesis on which natural capital and sustainable infrastructural capital depend, with the chemosynthesis of extracting and using fossil fuels.
Paul Hawken is a more recent advocate of the concept, and views it as central to his notion of a restorative economy. It remains a popular notion among those who believe that toxic waste and maintenance problems of direct solar energy devices can ultimately be overcome, or that yields of passive or biological means of gathering and using this energy as biofuels can be made to approximate those of fossil fuels.Design science
A concept of Design Science was introduced in 1957 by R. Buckminster Fuller who defined it as a systematic form of designing. He expanded on this concept in his World Design Science Decade proposal to the International Union of Architects in 1961. The term was later used by S. A. Gregory in the 1965 'The Design Method' Conference where he drew the distinction between scientific method and design method. Gregory was clear in his view that design was not a science and that design science referred to the scientific study of design. Herbert Simon in his 1968 Karl Taylor Compton lectures used and popularized these terms in his argument for the scientific study of the artificial (as opposed to the natural). Over the intervening period the two uses of the term (systematic designing and study of designing) have co-mingled to the point where design science may have both meanings: a science of design and design as a science.Dymaxion
Dymaxion is a term that Buckminster Fuller associated with much of his work—prominently his Dymaxion house and Dymaxion car. Dymaxion, a portmanteau of the words dynamic, maximum, and tension; sums up the goal of his study, "maximum gain of advantage from minimal energy input."A name was needed for the display of Fuller's first architectural model, later to be known as the Dymaxion house, at the Marshall Field's department store in Chicago. To create the name, wordsmith Waldo Warren was hired by Marshall Field's and spent two days listening to Fuller, getting a feel for his idiosyncratic use of language—later playing with the syllables typical of Fuller's speech until he and Fuller agreed on the word Dymaxion.
Fuller used the word for many of his inventions during the decades to follow, including the Dymaxion house, the Dymaxion deployment unit, the Dymaxion car, and the Dymaxion world map. Dymaxion also came to describe a polyphasic sleep schedule he followed, consisting of four 30-minute naps throughout the day.
Fuller eventually renamed his elaborate journal—a highly specific, highly detailed self-documentation of his life—as the Dymaxion Chronofile.Dymaxion Chronofile
The Dymaxion Chronofile is Buckminster Fuller's attempt to document his life as completely as possible. He created a very large scrapbook in which he documented his life every 15 minutes from 1920 to 1983. The scrapbook contains copies of all correspondence, bills, notes, sketches, and clippings from newspapers. The total collection is estimated to be 270 feet (80 m) worth of paper. This is said to be the most documented human life in history.
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.Dymaxion house
The Dymaxion House was developed by inventor and architect Buckminster Fuller to address several perceived shortcomings with existing homebuilding techniques. Fuller designed several versions of the house at different times — all of them factory manufactured kits, assembled on site, intended to be suitable for any site or environment and to use resources efficiently. A key design consideration of the design was ease of shipment and assembly.
As he did when naming many of his inventions, Fuller combined the words dynamic, maximum, and tension to arrive at the term Dymaxion.Dymaxion map
The Dymaxion map or Fuller map is a projection of a world map onto the surface of an icosahedron, which can be unfolded and flattened to two dimensions. The flat map is heavily interrupted in order to preserve shapes and sizes.
The projection was invented by Buckminster Fuller. The March 1, 1943 edition of Life magazine included a photographic essay titled "Life Presents R. Buckminster Fuller's Dymaxion World". The article included several examples of its use together with a pull-out section that could be assembled as a "three-dimensional approximation of a globe or laid out as a flat map, with which the world may be fitted together and rearranged to illuminate special aspects of its geography." Fuller applied for a patent in the United States in February 1944, the patent application showing a projection onto a cuboctahedron. The patent was issued in January 1946.The 1954 version published by Fuller, made with co-cartographer Shoji Sadao, the Airocean World Map, used a modified but mostly regular icosahedron as the base for the projection, which is the version most commonly referred to today. This version depicts the Earth's continents as "one island", or nearly contiguous land masses.
The Dymaxion projection is intended only for representations of the entire globe. It is not a gnomonic projection, whereby global data expands from the center point of a tangent facet outward to the edges. Instead, each triangle edge of the Dymaxion map matches the scale of a partial great circle on a corresponding globe, and other points within each facet shrink toward its middle, rather than enlarging to the peripheries.The name Dymaxion was applied by Fuller to several of his inventions.Ephemeralization
Ephemeralization, a term coined by R. Buckminster Fuller, is the ability of technological advancement to do "more and more with less and less until eventually you can do everything with nothing," that is, an accelerating increase in the efficiency of achieving the same or more output (products, services, information, etc.) while requiring less input (effort, time, resources, etc.). Fuller's vision was that ephemeralization will result in ever-increasing standards of living for an ever-growing population despite finite resources. The concept has been embraced by those who argue against Malthusian philosophy.Fuller uses Henry Ford's assembly line as an example of how ephemeralization can continuously lead to better products at lower cost with no upper bound on productivity. Fuller saw ephemeralization as an inevitable trend in human development. The progression was from "compression" to "tension" to "visual" to "abstract electrical" (i.e., nonsensorial radiation, such as radio waves, x rays, etc.).Length measurement technologies in human development, for example, started with a compressive measure, such as a ruler. The compressive technique reached an upper limit with a rod. For longer measures, a tensive measure such as a string or rope was used. This reached an upper limit with sagging of the string. Next was a surveyor's telescope (visual). This reached an upper limit with curvature of the earth. Next was radio triangulation (abstract electrical). The technological progression is a continuing increase in length-measuring ability per pound of instrument, with no apparent upper limit according to Fuller.Fly's Eye Dome
The Fly's Eye Dome was a structure designed in 1965 by R. Buckminster Fuller. Inspired by the eye of a fly, Fuller designed the dome as his idea of the affordable, portable home of the future, with windows and openings in the dome to hold solar panels and systems for water collection, thus allowing the dome to be self sufficient. Before his death in 1983, he hand-built three prototypes of the design:
A 12-foot prototype is currently owned by Norman Foster.
A 24-foot prototype is currently owned by Craig Robins.
A 50-foot prototype acquired by Crystal Bridges Museum of American Art in Bentonville, Arkansas and installed in 2017.A new version of the Fly's Eye Dome standing at 24 feet was built in 2014 in Miami under guidance from The Buckminster Fuller Institute.Geodesic dome
A geodesic dome is a hemispherical thin-shell structure (lattice-shell) based on a geodesic polyhedron. The triangular elements of the dome are structurally rigid and distribute the structural stress throughout the structure, making geodesic domes able to withstand very heavy loads for their size.Montreal Biosphere
The Biosphere (French: "La Biosphère de Montréal") is a museum dedicated to the environment. It is located at Parc Jean-Drapeau, on Saint Helen's Island in the former pavilion of the United States for the 1967 World Fair, Expo 67 in Montreal, Quebec, Canada. The museum's geodesic dome was designed by Buckminster Fuller.Operating Manual for Spaceship Earth
Operating Manual For Spaceship Earth is a short book by R. Buckminster Fuller, first published in 1968, following an address with a similar title given to the 50th annual convention of the American Planners Association in the Shoreham Hotel, Washington D.C., on 16 October 1967.The book relates Earth to a spaceship flying through space. The spaceship has a finite amount of resources and cannot be resupplied.Proposed domed Brooklyn Dodgers stadium
A proposed domed stadium for the Brooklyn Dodgers, designed by Buckminster Fuller, was to replace Ebbets Field for the Brooklyn Dodgers to allow them to stay in New York City. The Dodgers instead moved to Chavez Ravine in Los Angeles. First announced in the early 1950s, the envisioned structure would have seated 52,000 people and been the first domed stadium in the world, opening roughly a decade before Houston's Astrodome. The stadium, in Fort Greene, Brooklyn, would have been located at the northeast corner of Flatbush Avenue and Atlantic Avenue, on the site of the Atlantic Terminal. It would have cost $6 million to build and been privately financed. It was never built.
The general area eventually did become a sports venue, because Barclays Center was built across the street to the south from the Atlantic Terminal, in neighboring Pacific Park.R. Buckminster Fuller and Anne Hewlett Dome Home
The R. Buckminster Fuller and Anne Hewlett Dome Home, located at 407 S. Forest Ave. in Carbondale, Illinois, is a geodesic dome house which was the residence of Buckminster Fuller from 1960 to 1971. The house, inhabited by Fuller while he taught at Southern Illinois University, was the only geodesic dome Fuller lived in as well as the only property he ever owned. Fuller, a prolific architect and engineer, popularized the geodesic dome as a building design, and his house was one of the first geodesic dome residences to be constructed. The home was built and designed by Al Miller of the Pease Woodworking Company. While living in the home, Fuller was awarded nine patents, published eleven books, and designed the Montreal Biosphère, one of his most famous works.The house was added to the National Register of Historic Places on February 9, 2006.Tensegrity
Tensegrity, tensional integrity or floating compression is a structural principle based on the use of isolated components in compression inside a net of continuous tension, in such a way that the compressed members (usually bars or struts) do not touch each other and the prestressed tensioned members (usually cables or tendons) delineate the system spatially.The term was coined by Buckminster Fuller in the 1960s as a portmanteau of "tensional integrity". The other denomination of tensegrity, floating compression, was used mainly by Kenneth Snelson.World Game
World Game, sometimes called the World Peace Game, is an educational simulation developed by Buckminster Fuller in 1961 to help create solutions to overpopulation and the uneven distribution of global resources. This alternative to war games uses Fuller's Dymaxion map and requires a group of players to cooperatively solve a set of metaphorical scenarios, thus challenging the dominant nation-state perspective with a more holistic "total world" view. The idea was to "make the world work for 100% of humanity in the shortest possible time through spontaneous cooperation without ecological damage or disadvantage to anyone," thus increasing the quality of life for all people.