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Showing 1 - 25 of 35 matches in All Departments
In this timely volume, scientists examine examine the physical, structural, and analytical chemistry of fuel combustion. Their contributions also address the issue of combustion efficiency and how air quality can be protected or improved. Supported by numerous illustrations, this volume be appreciated by researchers and students working in various areas of chemistry.
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. Istvan 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.
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. Istvan 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.
The accurate determination of the structure of molecular systems provides information about the consequences of weak interactions both within and between molecules. These consequences impact the properties of the materials and the behaviour in interactions with other substances. The book presents modern experimental and computational techniques for the determination of molecular structure. It also highlights applications ranging from the simplest molecules to DNA and industrially significant materials. Readership Graduate students and researchers in structural chemistry, computational chemistry, molecular spectroscopy, crystallography, supramolecular chemistry, solid state chemistry and physics, and materials science.
The title of our volume refers to what is well described by the following two quota tions: "Godcreated man in his own image"l and "Man creates God in his own image."2 Our approach to symmetry is subjective, and the term "personal" symmetry reflects this approach in our discussion of selected scientific events. We have chosen six icons to symbolize six areas: Kepler for modeling, Fuller for new molecules, Pauling for helical structures, Kitaigorodskii for packing, Bernal for quasicrystals, and Curie for dissymmetry. For the past three decades we have been involved in learning, thinking, speaking, and writing about symmetry. This involvement has augmented our principal activities in molecular structure research. Our interest in symmetry had started with a simple fascination and has evolved into a highly charged personal topic for us. At the start of this volume, we had had several authored and edited symmetry related books behind 3 us. We owe a debt of gratitude to the numerous people whose interviews are quoted 4 in this volume. We very much appreciate the kind and gracious cooperation of Edgar J. Applewhite (Washington, DC), Lawrence S. Bartell (University of Michigan), R."
The apex of Soviet science as seen through the lives of twelve of the USSR's most eminent researchers Moscow's Novodevichy Cemetery is the final resting place of some of Russia's most celebrated figures, from Khrushchev and Yeltsin to Anton Chekhov, Sergei Eisenstein, Nikolai Gogol, and Mikhail Bulgakov. Using this famed cemetery as symbolic starting point, Buried Glory profiles a dozen eminent Soviet scientists-nine of whom are buried at Novodevichy-men who illustrate both the glorious heights of Soviet research as well as the eclipse of science since the collapse of the USSR. Drawing on extensive archival research and his own personal memories, renowned chemist Istvan Hargittai bring these figures back to life, placing their remarkable scientific achievements against the tense political backdrop of the Cold War. Among the eminent scientists profiled here are Petr L. Kapitza, one of the most brilliant representatives of the great generation of Soviet physicists, a Nobel-Prize winner who risked his career-and his life-standing up for fellow scientists against Stalin. Yulii B. Khariton, who ran the highly secretive Soviet nuclear weapons laboratory, Arzamas-16, despite being Jewish and despite the fact that his father Boris had been sent to the labor camps. And Andrei D. Sakharov, the "father of the Soviet hydrogen bomb " and a brilliant fighter for human rights, for which he won the Nobel Peace Prize. Along the way, Hargittai shines a light on the harrowing conditions under which these brilliant researchers excelled. Indeed, in the post-war period, Stalin's anti-Semitism and ongoing anti-science measures devastated biology, damaged chemistry, and nearly destroyed physics. The latter was saved only because Stalin realized that without physics and physicists there could be no nuclear weapons. The extraordinary scientific talent nurtured by the Soviet regime belongs almost entirely to the past. Buried Glory is both a fitting tribute to these great scientists and a fascinating account of scientific work behind the Iron Curtain.
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 Karman 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.
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 Karman 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.
If science has the equivalent of a Bloomsbury group, it is the five
men born at the turn of the twentieth century in Budapest: Theodore
von Karman, Leo Szilard, Eugene Wigner, John von Neumann, and
Edward Teller. From Hungary to Germany to the United States, they
remained friends and continued to work together and influence each
other throughout their lives. As a result, their work was integral
to some of the most important scientific and political developments
of the twentieth century.
Candid Science VI is the concluding volume of the series. It contains conversations with scientists from the biomedical sciences, chemistry, and physics. There are 31 Nobel laureates and 11 other luminaries among them. The scientists -- according to their loosely-defined fields -- are, in the biomedical sciences, Francis Crick, Sydney Brenner, Matthew Meselson, Paul M Nurse, R Timothy (Tim) Hunt, Seymour Benzer, Christiane Nusslein-Volhard, Werner Arber, David Baltimore, J Michael Bishop, Harold E Varmus, Peter Mansfield, Avram Hershko, Aaron Ciechanover, Irwin Rose, Alexander Varshavsky, Osamu Hayaishi; in chemistry, Ada Yonath, Isabella Karle, Jerome Karle, Yuan Tseh Lee, Darleane Hoffman; in physics, Richard L Garwin, Donald A Glaser, Nicholas Kurti, Herbert Kroemer, James Cronin, Wolfgang Panofsky, Burton Richter, Samuel Chao Chung Ting, Martin L Perl, Carlo Rubbia, Simon van der Meer, Douglas D Osheroff, Jack Steinberger, Masatoshi Koshiba, Riccardo Giacconi, Brian D Josephson, Ivar Giaever, Vitaly L Ginzburg, David Gross, and Frank Wilczek.
Candid Science VI is the concluding volume of the series. It contains conversations with scientists from the biomedical sciences, chemistry, and physics. There are 31 Nobel laureates and 11 other luminaries among them. The scientists -- according to their loosely-defined fields -- are, in the biomedical sciences, Francis Crick, Sydney Brenner, Matthew Meselson, Paul M Nurse, R Timothy (Tim) Hunt, Seymour Benzer, Christiane Nusslein-Volhard, Werner Arber, David Baltimore, J Michael Bishop, Harold E Varmus, Peter Mansfield, Avram Hershko, Aaron Ciechanover, Irwin Rose, Alexander Varshavsky, Osamu Hayaishi; in chemistry, Ada Yonath, Isabella Karle, Jerome Karle, Yuan Tseh Lee, Darleane Hoffman; in physics, Richard L Garwin, Donald A Glaser, Nicholas Kurti, Herbert Kroemer, James Cronin, Wolfgang Panofsky, Burton Richter, Samuel Chao Chung Ting, Martin L Perl, Carlo Rubbia, Simon van der Meer, Douglas D Osheroff, Jack Steinberger, Masatoshi Koshiba, Riccardo Giacconi, Brian D Josephson, Ivar Giaever, Vitaly L Ginzburg, David Gross, and Frank Wilczek.
Candid Science V: Conversations with Famous Scientists contains 36 interviews with well-known scientists, including 19 Nobel laureates, Wolf Prize winners, and other luminaries. These in-depth conversations provide a glimpse into the greatest achievements in science during the past few decades, featuring stories of the discoveries, and showing the human drama behind them. The greatest scientists are brought into close human proximity as if readers were having a conversation with them. This volume departs from the previous ones in that it contains interviews with mathematicians in addition to physicists, chemists, and biomedical scientists. Another peculiarity of this volume is that it includes nine interviews from another project, the collection of the late Clarence Larson, former Commissioner of the Atomic Energy Commission and his wife, Jane ("Larson Tapes"). The 36 interviewees include famous personalities of our time, such as Donald Coxeter, John Conway, Roger Penrose, Alan Mackay, Dan Shechtman, Charles Townes, Arthur Schawlow, Leon Cooper, Alexei Abrikosov, Luis Alvarez, William Pickering, William Fowler, Vera Rubin, Neta Bahcall, Rudolf Peierls, Emilio Segre, Harold Agnew, Clarence Larson, Nelson Leonard, Princess Chulabhorn, Linus Pauling, Miklos Bodanszky, Melvin Calvin, Donald Huffman Alan MacDiarmid, Alan Heeger, Jens Christian Skou, Paul Lauterbur, Gunther Stent, John Sulston, Renato Dulbecco, Baruch Blumberg, Arvid Carlsson, Oleh Hornykiewicz, Paul Greengard, and Eric Kandel.
Candid Science V: Conversations with Famous Scientists contains 36 interviews with well-known scientists, including 19 Nobel laureates, Wolf Prize winners, and other luminaries. These in-depth conversations provide a glimpse into the greatest achievements in science during the past few decades, featuring stories of the discoveries, and showing the human drama behind them. The greatest scientists are brought into close human proximity as if readers were having a conversation with them. This volume departs from the previous ones in that it contains interviews with mathematicians in addition to physicists, chemists, and biomedical scientists. Another peculiarity of this volume is that it includes nine interviews from another project, the collection of the late Clarence Larson, former Commissioner of the Atomic Energy Commission and his wife, Jane ("Larson Tapes"). The 36 interviewees include famous personalities of our time, such as Donald Coxeter, John Conway, Roger Penrose, Alan Mackay, Dan Shechtman, Charles Townes, Arthur Schawlow, Leon Cooper, Alexei Abrikosov, Luis Alvarez, William Pickering, William Fowler, Vera Rubin, Neta Bahcall, Rudolf Peierls, Emilio Segre, Harold Agnew, Clarence Larson, Nelson Leonard, Princess Chulabhorn, Linus Pauling, Miklos Bodanszky, Melvin Calvin, Donald Huffman Alan MacDiarmid, Alan Heeger, Jens Christian Skou, Paul Lauterbur, Gunther Stent, John Sulston, Renato Dulbecco, Baruch Blumberg, Arvid Carlsson, Oleh Hornykiewicz, Paul Greengard, and Eric Kandel.
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.
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.
The study of the structure of molecular systems is an enduring area of research. This series is devoted to bringing together articles from leading workers in the field that draw together recent theoretical and experimental results and advances in understanding.
In this book, Istvan 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-Gyoergyi, 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
It is gratifying to launch the third edition of our book. Its coming to life testi?es about the task it has ful?lled in the service of the com- nity of chemical research and learning. As we noted in the Prefaces to the ?rst and second editions, our book surveys chemistry from the point of view of symmetry. We present many examples from ch- istry as well as from other ?elds to emphasize the unifying nature of the symmetry concept. Our aim has been to provide aesthetic pl- sure in addition to learning experience. In our ?rst Preface we paid tribute to two books in particular from which we learned a great deal; they have in?uenced signi?cantly our approach to the subject matter of our book. They are Weyl's classic, Symmetry, and Shubnikov and Koptsik's Symmetry in Science and Art. The structure of our book has not changed. Following the Int- duction (Chapter 1), Chapter 2 presents the simplest symmetries using chemical and non-chemical examples. Molecular geometry is discussed in Chapter 3. The next four chapters present gro- theoretical methods (Chapter 4) and, based on them, discussions of molecular vibrations (Chapter 5), electronic structures (Chapter 6), and chemical reactions (Chapter 7). For the last two chapters we return to a qualitative treatment and introduce space-group sym- tries (Chapter 8), concluding with crystal structures (Chapter 9). For the third edition we have further revised and streamlined our text and renewed the illustrative material.
In this timely volume, scientists examine examine the physical, structural, and analytical chemistry of fuel combustion. Their contributions also address the issue of combustion efficiency and how air quality can be protected or improved. Supported by numerous illustrations, this volume be appreciated by researchers and students working in various areas of chemistry.
'The statuary and monuments catalogued in this impressive body of work are accompanied by descriptions of the subjects their work and achievements.'Chemistry WorldMoscow is the center of science and higher education of Russia and is also an international hub of science. There have been milestone achievements of science in Russia (and the Soviet Union), especially in the areas of physics, chemistry, mathematics, the conquest of space, various technologies and medicine. However, the scientists and inventors often created in isolation and have become less known than their discoveries would justify. At the same time, there is no other city in the world that has so many memorials honoring scientists as Moscow. There is a caveat in that political considerations have often influenced who was remembered and who was not. This book presents statues, memorial plaques, and historical buildings. Not only celebrated excellences are mentioned, but also some of the greats that perished during the years of terror. The book is full of human drama and 750 photos illustrate the narrative. Science in Moscow follows Budapest Scientific and New York Scientific and is the third in the series about memorials of scientists in great cities of the world.
It is gratifying to launch the third edition of our book. Its coming to life testi?es about the task it has ful?lled in the service of the com- nity of chemical research and learning. As we noted in the Prefaces to the ?rst and second editions, our book surveys chemistry from the point of view of symmetry. We present many examples from ch- istry as well as from other ?elds to emphasize the unifying nature of the symmetry concept. Our aim has been to provide aesthetic pl- sure in addition to learning experience. In our ?rst Preface we paid tribute to two books in particular from which we learned a great deal; they have in?uenced signi?cantly our approach to the subject matter of our book. They are Weyl's classic, Symmetry, and Shubnikov and Koptsik's Symmetry in Science and Art. The structure of our book has not changed. Following the Int- duction (Chapter 1), Chapter 2 presents the simplest symmetries using chemical and non-chemical examples. Molecular geometry is discussed in Chapter 3. The next four chapters present gro- theoretical methods (Chapter 4) and, based on them, discussions of molecular vibrations (Chapter 5), electronic structures (Chapter 6), and chemical reactions (Chapter 7). For the last two chapters we return to a qualitative treatment and introduce space-group sym- tries (Chapter 8), concluding with crystal structures (Chapter 9). For the third edition we have further revised and streamlined our text and renewed the illustrative material.
The accurate determination of the structure of molecular systems provides information about the consequences of weak interactions both within and between molecules. These consequences impact the properties of the materials and the behaviour in interactions with other substances. The book presents modern experimental and computational techniques for the determination of molecular structure. It also highlights applications ranging from the simplest molecules to DNA and industrially significant materials. Readership Graduate students and researchers in structural chemistry, computational chemistry, molecular spectroscopy, crystallography, supramolecular chemistry, solid state chemistry and physics, and materials science.
Recently, the molecular structures of a relatively large number of sulphone compounds have been elucidated in the vapour phase by electron diffraction and microwave spectroscopy. The main purpose of these studies is the determination of the sulphur bond configuration and the conformational properties. This leads to the observation and correlation of characteristic structural variations as various ligands are attached to the S02 group and as comparisons are made with related molecules. Today it may be said that the structure of sulphone molecules is relatively well studied, and it appeared necessary to systematize the accumulated experimental data after critical considerations. This is done in the first part of this monograph. The second part presents the observed characteristic structural variations. Attempts are made to interpret these variations by valence shell electron pair repulsions and-non-bonded interactions. Correlation relationships between geometric and vibrational parameters are also presented. It is the metrical aspects of the molecular structure which are primarily considered. Since they correlate with other aspects of the molecular structure, e.g. electronic, it is hoped that the experimental information on the molecular geometry provides stim ulus for further experimental, and, in particular, theoretical work on sulphones and related systems. IV It is attempted to cover all electron diffraction and micro wave spectroscopic investigations on sulphone molecules to date. Admittedly, however, relatively larger weight is given to the electron diffraction studies originating from the author's own laboratory." |
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