February 17, 1988 Richard Feynman Dead at 69; Leading Theoretical Physicist By JAMES GLEICK Richard P. Feynman, the most brilliant arguably, important and iconoclastic of the postwar technology of theoretical physicists, monday evening inside Los Angeles of stomach malignancy died. ''He was the most original mind of his generation,'' said Freeman Dyson of the Institute for Advanced Study in Princeton, N.J. But he held a separate news conference to deliver a harsh and independent verdict: that NASA had ''exaggerated the reliability of the space shuttle to the point of fantasy.'' then Even, Dr. Tuesday Feynman had begun a good wrestle with the tumor that killed him. ''He tried to rediscover the whole of physics by himself,'' said Dr. Dyson, who knew Dr. Feynman well at Cornell. A Key Role At Los Alamos Richard Phillips Feynman had been born on May 11, 1918, in Far Rockaway, Queens. One sequence of lectures seemed to be shared and accumulated in a placed that continues to be an indispensible physics content material, ''The Feynman Lectures on Physics''; another series became an eloquent book, ''The Character of Physical Law,'' and yet another started to be ''QED: The Strange Theory of Light and Matter.'' His 1985 memoirs, ''Surely You're Joking, Mr. Feynman,'' became a surprising best-seller. Dr. Feynman also took charge of the project's primitive computing effort, using rows of new machines to try to manage the vast amount of numerical calculating required. He or was articles with what he understood or what some other individuals recognized under no circumstances. But the technique shocked some physicists trained in the old ways. And more than a decade later, he put forwards an illuminating principle for the scattering of electrons at high power likewise. ''They follow all the apparent precepts and forms of scientific investigation, but they're missing something essential because the planes don't land.'' For Dr. Feynman, the planes almost landed always. Dr. Feynman gave up the have difficulties happily. At the subatomic level, though, where they govern the communication of electrically loaded allergens, the theory had run into trouble. At Cornell University in the 1940's and then in a long career at the California Institute of Technology, Dr. Feynman developed a lecture style that kept him at the center of attention, the impossible combination of theoretical circus and physicist barker, all physique movement and noise outcomes. His co-commissioners have found that it was hard to keep keep tabs on of him soon. A Fruitful Collaboration Dr. Feynman liked to speak of ''the laws,'' meaning the laws of nature, in a especially tidy and common perception. It shown to employ generally, but when they first prepared it for presentation they had a problem: the hypothesis ran counter to specific experimental evidence. It stays the same dimension. He and the physicists of his era produced serenity with a approach of talking about characteristics that just discussed how, not why. The two men devised a formula for predicting the energy yield of a nuclear weapon - a formula that remains classified, Dr. Bethe said. He decided that the only harm could come from ultraviolet rays and that the window glass would screen those. A crucial part of this framework was quantum electrodynamics, a modernization of the classical understanding of electromagnetic radiation - radiation like light and radio waves - formulated in the 19th century. But if I say to him Murray will be carrying out physics, next Penis gets nervous and wants to are available more than promptly. '' they determined latest laws and regulations Alongside one another. In the final end, Dr. Feynman said he was possibly the only man confident enough or reckless enough to watch the initial atomic bomb test with the naked eye, protected only by a truck windshield. In the 1960's he agreed to serve briefly on the California State Curriculum Commission and evaluate high school science textbooks, a memorable experience for the commission, since he observed the publications ''unhealthy regularly,'' ''false'' and ''useless.'' And when the room shuttle service Challenger exploded soon after it has been introduced on January immediately. 28, 1986, Dr. Feynman joined the Presidential commission investigating the disaster. ''I don't feel frightened by certainly not knowing things, by being lost in a mysterious universe without any purpose, which is the way it is, consequently mainly because I can say to considerably,'' he added. To those qualities, he contributed as much as anyone of his time. In some cases a Feynman diagram would create a end result that ran in contrast to all gut instinct -for instance, a positron performing in period backwards. ''I can live with doubt and uncertainty,'' he once mentioned. Tor even rubbery O ring provided the critical seal in the rocket booster, and was designed to block the escape of hot gas from the joint connecting the individual rocket segments. Feynman diagrams use lines to represent the past histories of particles and nodes to represent their interactions. W nothe ordinary kind doages great things but lets other scientists feel that they could carry out the same if only they worked hard enough. Physicists like Einstein had to struggle to reconcile their ordinary intuitions with the evidence of their equations. An architect of quantum theories, a brash young group leader on the atomic bomb project and the inventor of the indispensible ''Feynman diagrams'' of particle behavior, he took half-made conceptions of matter and energy in the 1940's and shaped them into tools that ordinary physicists could understand and calculate with. When the responsible officers turned their backs he would unlock the steel doors and leave notes with messages like, ''I borrowed document No. LA4312 - Feynman the safecracker.'' Primitive Computer Effort But Dr. Feynman's real role was deeper than he liked to suggest in his anecdotes for public consumption. Please let me know; drop me email. ''She offers her information only in one form; we will be definitely not so unhumble as to requirement that she adjustment before we shell out any consideration.'' In the 1950's he used a mathematical approach to make a theory for liquid helium, which at very low temperatures becomes superfluid, behaving as if no viscosity was had by it at all. When the commission finished its work, Mr. Rogers had been scarcely capable to prevail upon Dr. Feynman not to dissent from the report. ''If the only laws that you find are those which you have just done observing, after that you can in no way produce any predictions,'' he stated. It was a turning point in the investigation - a simple experiment, acquiring fifty percent a total day and no cash, that perfectly demonstrated both the vulnerability of the seal and the absolute confidence of the experimenter. If you enjoyed this article and you would such as to receive even more facts concerning cUrVY bRuNETtE CoLLeGe girL xXX pHoTOs kindly see our web-site. Now physicists were applying them to a new framework within which to study the properties of fundamental particles and the relationship between gravity, electromagnetism and the potent energies that hole the atom. Dr. Feynman's years with the Manhattan Project brought the brazen young scientist into close contact with the world's greacheck physicists and mathematicians. Physicists struggled for more than a decade to get revisions that would make the theory work. Inside other words, for a few seconds at least and more seconds than that, there is no resilience in thwill be particular material when it is at a temperature of 32 degrees.'' Dr. Feynman and additionals concluded that if the space agency had conducted the same experiment and acted on the results, the dwill beaster could have been avoided. ''It doesn't frighten me.'' Copyright 1997 The New York Times Company (employed without permission, but with respect) Have you found errors nontrivial or marginal, factual, illogical and analytical, arithmetical, temporal, or typographical even? Einstein's theory of relativity had transformed scientists' understanding of space and time, and quantum principle got transformed their understanding of the behavior of matter and energy in the guises of particles or waves. Later it would turn out that he acquired been conducting a private investigation, prowling around Cape Canaveral, Fla., questioning engineers and looking at the rocket boosters in storage. Stories from the right time, including Dr. Feynman's own, give the impression that he spent most of his time thinking up ways to infuriate the military censors and security officers. ''I think it's much more interesting to reside not necessarily being aware of than to have answers which might be wrong. ''Of course, this means that science is uncertain - the moment that you produce a proposition about a region of experience that you possess not directly seen, you must be uncertain then,'' he continued. But Dr. Feynman had been no mystic, and he despised all kinds of fake learning, pseudo-science particularly. ''But we always must make statements about the regions that we have definitely not noticed, or the whole business is no use.'' In 1950 Dr. Feynman moved to the California Institute of Technology in Pasadena, and he put in the majority of hwill be lifespan there. Dr. Feynman also devoted himself to cracking the combination safes that had been recently installed to protect the bomb secrets - the plutonium production schedules, the construction dimensions, the neutron radiation data, ''the whole schmeer,'' as he wrote in the future. Its ability to perform when cold was coming under sharp scrutiny. Within four years he had completed the ongoing work for which he won the Nobel Prize, in quantum electrodynamics, or QED. Together, these revolutions had made the atomic bomb possible. He pursued knowledge without prejudice, studying the tracking potential of ants in his bathtub and studying enough biology to study the mutation of bacteriophages. ''If I say he's in the garden Dick is happy for the rest of the day. Mathematics seemed to be nature's own language, he felt. But Dr. Feynman rebuilt quantum electrodynamics from the ground up. The other kind performs magic. These were his four goodest scientific achievements, but he as well left a deep mark on modern physics as an educator and an author. Kitchen counter to the Information The nagging difficulty had provided surge to theoretical distress. Dr. Bethe, the leader of the theoretical division, recognized him as the most ingenious member of his team. Its predictions failed to match experiments, and as physicists tried to make calculations more the discrepancies grew without limit accurately. As Dr. Feynman expected, when he cooled the rubbery material and squeezed it with a clamp, it hit a brick wall to spring back into shape. He taught himself how to fix radios, pick locks, draw nudes, speak Portuguese, play the bongos and decipher Mayan hieroglyphics. ''He has touched with his unique creativity just about every field of physics.'' Hans Bethe of Cornell University, paraphrasing the mathematician Mark Kac, said there were two kinds of geniuses. ''Somewhat to his disappointment, what he discovered was in agreement with what other people had done. It is the same, he stated, with cargo cult scientists. In a real way, Dr. Feynman was made also past due to discover the large mysteries. But he had to do it his own way, and what came out of it all was a new way of looking at things which has been enormously fruitful.'' A Shocking Technique Dr. Feynman's approach, in universal use by physicists now, allowed calculation in areas that had been regarded as esoteric impossibly. And you stop thinking, you know; you stop just.'' New Approach To Physics When World War II ended he was invited by Dr. Bethe to teach at Cornell, and Dr. Feynman accepted. She and their two children, Michelle and Carl, and his sister, Joan Feynman, survive him. Dr. Feynman's approach gave physicists a way of consistently understanding a whole range of properties of liquid helium. The Challenger Investigation With rare exceptions, Dr. Feynman avoided the usual kinds of committees that prominent experts serve on. Mr. Rogers saw what was coming, and a few minutes later, at the lunch break, he turned to the astronaut Neil Armstrong and said, ''Feynman is becoming a real pain.'' Material Found Vulnerable After the break, Dr. Feynman brought the crowded hearing room to dead silence by addressing Lawrence B. Mulloy, the former chief of the solid rocket booster program: ''I took this stuff that I got out of your seal and I put it in ice water, and I discovered that when some pressure is put by you on it for a while and then undo it, it doesn't stretch back. Much of what he accomplished he would admit to not understanding. Then, on Feb. 11, as a piece of O ring material was being passed from commissioner to commissioner, he privately requested for glaciers drinking water. To physicists who knew Dr. Feynman as a colleague or as a trained teacher, neither his faith in nature's simplicity nor his impatience with mediocrity came as a surprise. He framed the events of physics in terms of particle interactions, breaking the standard thought of lake, and he created a practical way of diagraming the interactions of particles that now bears his name. ''It seemed that their work contradicted an experiment,'' Dr. Bethe said, ''but the courage was had by them to say, 'This theory is so simple, so beautiful and straightforward, it must be right.' And it turned out to turn out to be right.'' The errors were in the experiment. ''If you want to learn about nature, to appreciate character, it is necessary to understand the language that she speaks in,'' he said. So they made runways, stationed a man with wooden bamboo and headphones for antennas, lighted some fires and waited for the planes to land. At the hearings themselves, hwill be hair often disheveled, Dr. Feynman ambushed witnesses from the Domestic Place and Aeronautics Current administration with impressive thinking about. On Early, he stunned a Washington hearing room by calling for ice water, plunking in a piece of the critical O ring seal from the rocket booster and then pinching it with a small clamp. He invented a new way of calculating that drew skepticism at first. After graduating from Far Rockaway High School in 1935, he travelled on to the Massachusetts Initiate of Systems and to Princeton College therefore, where he received his doctorate in 1942. By then he had been recruited for the Manhattan Project to build an atomic bomb at Los Alamos, N.M. By the 1940's the two great revolutions of 20th-century physics have been in full swing. He could once again possess earned it, many believed, for work with Murray Gell-Mann that made a principle for weak interactions, describing such phenomena as the emission of electrons from radioactive nuclei. ''I won the prize for shoving a great problem under the carpet,'' he disingenuously said, ''but in this case there was a moment when I understood how nature worked - it had elegance and beauty.'' An Educator and Author He also provided a mathematical theory that explained the strange behavior of liquid helium at temperatures a breath away from absolute zero. He began a fruitful collaboration with Caltech's other star, Murray Gell-Mann, a brilliant physicist 11 years his junior, and their collaboration felt want a rivalry. He would attend meetings in Edward Teller's office, furiously trading options with Enrico Fermi and Buck von Neumann, manipulating his desk calculator at top speed while von Neumann worked the same problems in his head. The resulting predictions have been verified to astonishing precision in a wide range of experiments. A Theory Runs Into Trouble In the domain of everyday life, electromagnetic forces are familiar and well understood. In his youth he experimented for months with trying to oboffer his unraveling stream of consciousness at the point of falling asleep; in his middle age he experimented with inducing out-of-body hallucinations in a sensory-deprivation tank. His meditative approach to radio repair, a hobby he took up when he seemed to be 11 or 12 years old, provided him a neighborhood reputation as the boy who could fix radios by thinking. Dr. Feynman himself will be mentioned to possess liked the in the future job much better. Another central notion was equally hard to swallow: that a physicist should make calculations not by solving some overall equation, but rather by taking all the possible histories of a particle interaction and adding them together, making a sum of probabilities. And later, exploring the behavior of electrons in high-energy collisions at the Stanford Linear Accelerator Center, an explanation has been provided by him that proved to be the most illuminating and, characteristically, the simplest. Dr. Feynman conceptualized difficulties in a especially statistical approach, attempting to cull the basis consistently, the statutory laws, from the physical details. Dr. Dr and Tomonaga. Schwinger connected their work to the old theory in ways that other physicists could quickly understand. Dr. Feynman's first wife, whom he married in 1941, passed on five a long time afterwards while he has been in Los Alamos. As Dr. Feynman himself said, the theory seemed absurd. In that category he placed a good part of modern psychology, calling it ''cargo cult science.'' Certain Pacific islanders, he explained, sought the products air carriers to be able to continue to keep coming back again more than after Globe Fight II seemed to be. After a second marriage concluded in divorce, he married Gweneth Howarth. ''Penis is definitely continually dialling up to discover whether Murray will be operating,'' Dr. Gell-Mann's wife, Margaret, once mentioned. ''You see, what happened to me -what happened to the rest of us,'' he wrote, ''is we started for a good reason, then you're working very hard to accomplish something, and it's pleasure, it's excitement. 'I Can Live With Doubt' The physics that he leaves behind is more difficult, more abstract and more distant from the global world of everyday human experience than any science of the past. Sometimes, with the commission meeting in full session, he would be missing. Only afterward, sitting in a New York restaurant and calculating the radius of potential bomb damage in midtown Manhattan, does he or reduce the euphoric sensation that driven him found in the complete ages he still worked to develop the bomb. Then, working independently, Dr. Feynman, Sin-Itero Tomonaga of Asia and Julian Schwinger of Harvard College resolveed the issue. A Genius and a 'Magician' ''He's the most creative theoretical physicist of his time and a true genius,'' mentioned Sidney D. Grell, former president of the American Physical Society. Relentless Pursuit of Knowledge Above all, in and out of science, Dr. Feynman was a curious character -his phrase, and the double meaning has been intentional. That did not sit well with the chairman, William P. Rogers, who wanted an ''orderly investigation.'' Nor does Mr. Rogers like Dr. Feynman's habit of heading for the television emergedras to share his findings. They investigated the weakened force, which plays a fundamental role in the binding of the atomic nucleus and governs the emission of fast-moving electrons in the getta-decay of radioactive substances. He was 69 years old. ''A magician does things that nobody else could ever do and that noticem completely unpredicted,'' Dr. Bethe said, ''and that's Feynman.'' Dr. Feynman shared the Nobel Prize for work he completed in his 20's, remaking the theory of quantum electrodynamics, which governs every physical and chemical process except those embracing radioactivity and gravitation. Making use of tokens in a very subjective approach, it becomes probable to understand complicated incidents that would possess taken months to calculate in any other case. Although his handiwork permeates the foundations of modern science, millions of Americans heard his name for the first time in 1986, when he brought an inquisitive and caustic presence to the Presidential commission investigating the explosion of the space shuttle Challenger. He and his first partner exchanged letters they had cut into pieces of a jigfound puzzle. The Caltech physicists cut through the difficulties with an approach that explained weak interactions in terms of such particle properties as spin.