This guidebook introduces the reader to the visible memorabilia of science and scientists in Budapest - statues, busts, plaques, buildings, and other artefacts. According to the Hungarian-American Nobel laureate Albert Szent-Györgyi, this metropolis at the crossroads of Europe has a special atmosphere of respect for science. It has been the venue of numerous scientific achievements and the cradle, literally, of many individuals who in Hungary, and even more beyond its borders, became world-renowned contributors to science and culture. Six of the eight chapters of the book cover the Hungarian Nobel laureates, the Hungarian Academy of Sciences, the university, the medical school, agricultural sciences, and technology and engineering. One chapter is about selected secondary schools from which seven Nobel laureates (Szent-Györgyi, de Hevesy, Wigner, Gabor, Harsanyi, Olah, and Kertész) and the five "Martians of Science" (von Kármán, Szilard, Wigner, von Neumann, and Teller) had graduated. The concluding chapter is devoted to scientist martyrs of the Holocaust. A special feature in surveying Hungarian science is the contributions of scientists that left their homeland before their careers blossomed and made their seminal discoveries elsewhere, especially in Great Britain and the United States. The book covers the memorabilia referring to both émigré scientists and those that remained in Hungary. The discussion is informative and entertaining. The coverage is based on the visible memorabilia, which are not necessarily proportional with achievements. Therefore, there is a caveat that one could not compile a history of science relying solely on the presence of the memorabilia.
In this book, István Hargittai, an internationally renowned physical chemist, narrates his life by introducing over forty personalities that played noteworthy roles in his career. The time span ranges from the Holocaust, which the author survived, through the periods of hard and softer dictatorships of Soviet-type socialism, and the current revival of an autocratic regime in Hungary. He overcame barriers to get a high school, then a university education. He received excellent training in Moscow and was active at Hungarian, American and other international scientific venues, and he has interacted with more Nobel laureates than anyone in the world. The chapters feature such famous contributors to world science as Francis Crick, Richard L. Garwin, Ronald J. Gillespie, Avram Hershko, George Klein, Paul Lauterbur and Peter Mansfield, Peter D. Lax, Paul Nurse, Yuval Ne’eman, George A. Olah, Guy Ourisson, Michael Polanyi, Andrei D. Sakharov, Albert Szent-Györgyi, Edward Teller, James D. Watson, and Eugene P. Wigner. The areas covered include chemistry, molecular biology, physics, materials science, and mathematics. “On the basis of Hargittai’s mosaic of his personal and scientific life, I could compose two further patterns. One would be the history of the twentieth century and the other the science history of the same time period.” From the Foreword by the late philosopher Agnes Heller, Goethe Medalist, Wallenberg Medalist, and Hannah Arendt Prize laureate
Hargittai tells the story of five remarkable Hungarians: Wigner won a Nobel Prize in theoretical physics; Szilard was the first to see that a chain reaction based on neutrons was possible, initiated the Manhattan Project, but left physics to try to restrict nuclear arms; von Neumann could solve difficult problems in his head and developed the modern computer for more complex problems; von Kármán became the first director of NASA's Jet Propulsion Laboratory, providing the scientific basis for the U.S. Air Force; and Teller was the father of the hydrogen bomb, whose name is now synonymous with the controversial "Star Wars" initiative of the 1980s.
By addressing the enigma of the exceptional success of Hungarian emigrant scientists and telling their life stories, Brilliance in Exile combines scholarly analysis with fascinating portrayals of uncommon personalities. István and Balazs Hargittai discuss the conditions that led to five different waves of emigration of scientists from the early twentieth century to the present. Although these exodes were driven by a broad variety of personal motivations, the attraction of an open society with inclusiveness, tolerance, and – needless to say – better circumstances for working and living, was the chief force drawing them abroad. While emigration from East to West is a general phenomenon, this book explains why and how the emigration of Hungarian scientists is distinctive. The high number of Nobel Prizes among this group is only one indicator. Multicultural tolerance, a quickly emerging, considerably Jewish, urban middle class, and a very effective secondary school system were positive legacies of the Austro-Hungarian Monarchy. Multiple generations, shaped by these conditions, suffered from the increasingly exclusionist, intolerant, antisemitic, and economically stagnating environment, and chose to go elsewhere. “I would rather have roots than wings, but if I cannot have roots, I shall use wings," explained Leo Szilard, one of the fathers of the Atom Bomb.
New York city is a world center of science and the memorabilia presented introduce the reader to a culture of learning and of creating new knowledge, venues of great medicine, and a number of exceptional schools graduating world leaders in science.
The Nobel Prizes enjoy enormous prestige throughout the world. Every year, science is propelled into the limelight, and in October, when the prizes are announced, and December, when they are awarded at a ceremony in Stockholm, a chosen few scientists acquire celebrity status and their sciencereceives wide coverage in the news media. First awarded in 1901, the Nobel Prize remains the only science prize widely recognized by the general public.What sort of scientists become Nobel laureates? How are they chosen? Are there features common to them, and to their prize-winning research? These sorts of questions have long intrigued Istvan Hargittai and seeking answers, he began interviewing Nobel prize-winning scientists about their careers.Some 70 laureates, and a similar number of other distinguished scientists, have been interviewed, most of them during the late 1990s, and the result is this remarkable book. Written for a general readership, The Road to Stockholm illuminates the nature of scientific discovery, the Nobel Prizeselection process, the factors common to award-winning research, and the effects of the Nobel Prize on science itself. Here are stories of scientists who overcame adversity, eventually to win the Prize; insights into the importance of the laureate's mentor in earlier life, and into the significanceof the location where prize-winning research is carried out; and a variety of responses to the question: what first turned you to science? No less fascinating are the well-publicised examples of deserving (in many eyes) scientists who were not awarded the Nobel Prize, and Professor Hargittai devotesa chapter to them.Here, then, is an absorbing account of science, scientists, and a Prize created a hundred years ago to reward those who, in the words of Alfred Nobel's Will, 'during the previous year, shall have conferred the greatest benefit on mankind.
Wisdom of the Martians of Science refers to five scientists whose brilliance contributed to shaping the modern world. John von Neumann was a pioneer of the modern computer; Theodore von Kármán was the scientist behind the US Air Force; Leo Szilard initiated the development of nuclear weapons; the Nobel laureate Eugene P Wigner was the world's first nuclear engineer; and Edward Teller was the father of the hydrogen bomb. They were born and raised in Budapest, were forced out of Hungary and then from Germany, they became Americans, and devoted themselves to the defense of the United States and the Free World. They contributed significant discoveries to fundamental science ranging from the properties of materials to the application of the symmetry principle in physics, to creating information theory, to game theory. The areas in which we can learn about their wisdom include applications of science to past, present and future real-world needs; defense; education; environment; human nature; humor; politics; religion; weather modification, and others. This book shows the wisdom of the Martians by presenting their thoughts and ideas in their own words and placing them into context. Their wisdom is intriguing, witty, provocative and thought provoking. It extended over many aspects of life and culture that impinge on our existence. While we cannot always agree with what they say, they are never boring. The power of their words and their philosophies will inspire the readers to pursue their own dreams."--
André Goodfriend was Deputy Chief of Mission from 2013 to 2015 at the US Embassy in Budapest. In the absence of an ambassador, most of the time he was Chargé d’Affaires. Goodfriend represented his country, and for that matter, liberal democracy, in the early period of the increasingly autocratic Orbán regime. This tenure was distinguished by an unusually high public visibility and broad-based popularity. This book contains the distilled essence of conversations recorded in the fall of 2015 and in the years after his departure. Aside from Goodfriend’s reflections on his personal history, the main focus of the deliberations is on open government: its characteristics, preconditions, benefits, and its relation to modern diplomacy. The mindset of a democracy-rooted diplomat with a working experience in an increasingly autocratic regime lends a particular perspective to the topics discussed. These topics include the fight against corruption, the protection of civil society, crisis prevention, education, economy, international relations, applied humanities, and the use of the social and traditional media to achieve policy goals. This book presents modern, “people-friendly” diplomacy in an era in which public officials are increasingly expected to be transparent and engaged.
A collection of interviews with 111 notable scientists, whose disciplines range from physics to chemistry to the biosciences, collected throughout the last 25 years.
Candid Science VI concludes the series by narrating the conversations with famous scientists from the biomedical sciences, chemistry, and physics. There are 31 Nobel laureates and 11 other luminaries among them. The scientists are in the field of biomedical sciences, chemistry and physics.
Candid Science V: Conversations with Famous Scientists contains 36interviews with well-known scientists, including 19 Nobel laureates, Wolf Prize winners, and other luminaries. These in-depth conversationsprovide a glimpse into the greatest achievements in science during thepast few decades, featuring stories of the discoveries, and showingthe human drama behind them
Candid Science IV: Conversations with Famous Physicists contains 36 interviews with well-known physicists, including 20 Nobel laureates, Templeton Prize winners, Wolf Prize winners, and other luminaries. Physics has been one of the determining fields of science in the past 100 years, playing a conspicuous role not only in science but also in world politics and economics. These in-depth conversations provide a glimpse into the greatest achievements of physics during the past few decades, featuring stories of the discoveries, and showing the human drama behind them. The greatest physicists are brought into close human proximity as if readers were having a conversation with them. The interviewees span a wide range of scientists, from such early giants as Eugene Wigner and Mark Oliphant to members of the youngest generation such as the 2001 Nobel laureate Wolfgang Ketterle. The list includes famous personalities of our time, such as Steven Weinberg, Leon Lederman, Norman Ramsey, Edward Teller, John Wheeler, Mildred Dresselhaus, Maurice Goldhaber, Benoit Mandelbrot, John Polkinghorne, and Freeman Dyson.
Symmetry is as simple or as complicated as we are ready to absorb it in everything around us. From flowers to bridges, buildings, coke machines, and snowflakes; from molecules to walnuts, fences, pine cones, and sunflowers; from music to children's drawings; from hubcaps to bank logos, propellers, wallpaper decorations, and pavements, we recognize it if we walk around with open eyes and an open mind. This book provides aesthetic pleasure and covert education, immersing the reader in both the familiar and the unknown and leading always to unexpected discoveries. The authors, world-renowned scientists, have already produced a dozen books on symmetry for professionals as well as laypersons, for grownups as well as children, in English, Russian, German, Hungarian, and Swedish languages. They provide this attractive account of symmetry in few words and many ? as many as 650 ? images in full color from the most diverse corners of our globe. An encounter with this book will open up a whole new experience for the reader, who will never look at the world with the same eyes as before.
In this book, 36 famous chemists, including 18 Nobel laureates, tell about their lives in science, the beginnings of their careers, their aspirations, and their hardships and triumphs. The reader will learn about their seminal discoveries, and the conversations in the book bring out the humanity of these great scientists. NMR spectroscopy, computational chemistry, the drama of buckminsterfullerene, the story of the Pill, the politics of atmospheric chemistry and the resonance theory, the beginnings of molecular mechanics and modern stereochemistry are examples of the topics discussed first-hand by, in all likelihood, the most appropriate persons.
By addressing the enigma of the exceptional success of Hungarian emigrant scientists and telling their life stories, Brilliance in Exile combines scholarly analysis with fascinating portrayals of uncommon personalities. István and Balazs Hargittai discuss the conditions that led to five different waves of emigration of scientists from the early twentieth century to the present. Although these exodes were driven by a broad variety of personal motivations, the attraction of an open society with inclusiveness, tolerance, and – needless to say – better circumstances for working and living, was the chief force drawing them abroad. While emigration from East to West is a general phenomenon, this book explains why and how the emigration of Hungarian scientists is distinctive. The high number of Nobel Prizes among this group is only one indicator. Multicultural tolerance, a quickly emerging, considerably Jewish, urban middle class, and a very effective secondary school system were positive legacies of the Austro-Hungarian Monarchy. Multiple generations, shaped by these conditions, suffered from the increasingly exclusionist, intolerant, antisemitic, and economically stagnating environment, and chose to go elsewhere. “I would rather have roots than wings, but if I cannot have roots, I shall use wings," explained Leo Szilard, one of the fathers of the Atom Bomb.
Three in-depth conversations with the Nobel laureate co-discoverer of the double helix and the first director of the Human Genome Project cover a wide range of topics, including progress in science; the scientist's role in modern life; women in science; scientific ethics; terrorism; religion; multiculturalism; and how genetics may improve human lives. Reflections by further illustrious contributors to the scientific revolution and the author's commentaries provide a glimpse into the thinking of scientists who largely determine the progress of humankind in our time.
This invaluable book contains 36 interviews, including 26 with Nobel laureates. It presents a cross-section of biomedical science, a field that has been dominant in science for the past half century. The in-depth conversations cover important research areas and discoveries, as well as the roads to these discoveries, including aspects of the scientists' work that never saw publication. They also bring out the humanness of the famous scientists — the reader learns about their backgrounds, aspirations, failings, and triumphs. The book is illustrated with snapshots of the conversations and photos provided by the interviewees. It is a follow-up to the critically acclaimed Candid Science: Conversations with Famous Chemists, by the same author.
New York city is a world center of science and the memorabilia presented introduce the reader to a culture of learning and of creating new knowledge, venues of great medicine, and a number of exceptional schools graduating world leaders in science.
This guidebook introduces the reader to the visible memorabilia of science and scientists in Budapest - statues, busts, plaques, buildings, and other artefacts. According to the Hungarian-American Nobel laureate Albert Szent-Györgyi, this metropolis at the crossroads of Europe has a special atmosphere of respect for science. It has been the venue of numerous scientific achievements and the cradle, literally, of many individuals who in Hungary, and even more beyond its borders, became world-renowned contributors to science and culture. Six of the eight chapters of the book cover the Hungarian Nobel laureates, the Hungarian Academy of Sciences, the university, the medical school, agricultural sciences, and technology and engineering. One chapter is about selected secondary schools from which seven Nobel laureates (Szent-Györgyi, de Hevesy, Wigner, Gabor, Harsanyi, Olah, and Kertész) and the five "Martians of Science" (von Kármán, Szilard, Wigner, von Neumann, and Teller) had graduated. The concluding chapter is devoted to scientist martyrs of the Holocaust. A special feature in surveying Hungarian science is the contributions of scientists that left their homeland before their careers blossomed and made their seminal discoveries elsewhere, especially in Great Britain and the United States. The book covers the memorabilia referring to both émigré scientists and those that remained in Hungary. The discussion is informative and entertaining. The coverage is based on the visible memorabilia, which are not necessarily proportional with achievements. Therefore, there is a caveat that one could not compile a history of science relying solely on the presence of the memorabilia.
In this book, István Hargittai, an internationally renowned physical chemist, narrates his life by introducing over forty personalities that played noteworthy roles in his career. The time span ranges from the Holocaust, which the author survived, through the periods of hard and softer dictatorships of Soviet-type socialism, and the current revival of an autocratic regime in Hungary. He overcame barriers to get a high school, then a university education. He received excellent training in Moscow and was active at Hungarian, American and other international scientific venues, and he has interacted with more Nobel laureates than anyone in the world. The chapters feature such famous contributors to world science as Francis Crick, Richard L. Garwin, Ronald J. Gillespie, Avram Hershko, George Klein, Paul Lauterbur and Peter Mansfield, Peter D. Lax, Paul Nurse, Yuval Ne’eman, George A. Olah, Guy Ourisson, Michael Polanyi, Andrei D. Sakharov, Albert Szent-Györgyi, Edward Teller, James D. Watson, and Eugene P. Wigner. The areas covered include chemistry, molecular biology, physics, materials science, and mathematics. “On the basis of Hargittai’s mosaic of his personal and scientific life, I could compose two further patterns. One would be the history of the twentieth century and the other the science history of the same time period.” From the Foreword by the late philosopher Agnes Heller, Goethe Medalist, Wallenberg Medalist, and Hannah Arendt Prize laureate
The Nobel Prizes enjoy enormous prestige throughout the world. Every year, science is propelled into the limelight, and in October, when the prizes are announced, and December, when they are awarded at a ceremony in Stockholm, a chosen few scientists acquire celebrity status and their sciencereceives wide coverage in the news media. First awarded in 1901, the Nobel Prize remains the only science prize widely recognized by the general public.What sort of scientists become Nobel laureates? How are they chosen? Are there features common to them, and to their prize-winning research? These sorts of questions have long intrigued Istvan Hargittai and seeking answers, he began interviewing Nobel prize-winning scientists about their careers.Some 70 laureates, and a similar number of other distinguished scientists, have been interviewed, most of them during the late 1990s, and the result is this remarkable book. Written for a general readership, The Road to Stockholm illuminates the nature of scientific discovery, the Nobel Prizeselection process, the factors common to award-winning research, and the effects of the Nobel Prize on science itself. Here are stories of scientists who overcame adversity, eventually to win the Prize; insights into the importance of the laureate's mentor in earlier life, and into the significanceof the location where prize-winning research is carried out; and a variety of responses to the question: what first turned you to science? No less fascinating are the well-publicised examples of deserving (in many eyes) scientists who were not awarded the Nobel Prize, and Professor Hargittai devotesa chapter to them.Here, then, is an absorbing account of science, scientists, and a Prize created a hundred years ago to reward those who, in the words of Alfred Nobel's Will, 'during the previous year, shall have conferred the greatest benefit on mankind.
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