Over the years, Jeremy Bernstein has been in contact with many of the worlda (TM)s most renowned physicists and other scientists, many of whom were involved in politics, literature, and language. In this diverse collection of essays, he reflects on their work, their personal relationships, their motives, and their contributions. Even for those people he writes about that he did not know personally, he provides important insights into their lives and work, and questions their character, their decisions, and the lives they led. In the first three essays, Professor Bernstein looks at economic theory and how some physicists who developed interesting economic models based on derivatives and hedge funds almost led to the country into bankruptcy. In later essays, he discusses a suspect visit to Poland by the great Heisenberg during the Nazi era, a visit that there is almost nothing written about. Included also are essays on ancient languages and a nuclear weapons program in South Africa that was supposedly dismantled. In one particularly humorous essay, he describes how an ill-conceived manned spaceship to be powered by an atomic bomb was being developed by some of the countrya (TM)s most powerful intellects. The project never got off the ground. Dipping into these pages is like rummaging around in the mind of a genius who has a potpourri of interests and an abundance of fascinating experiences. Bernstein has not only rubbed elbows with some of the finest minds in world, he has worked and played with them. He has sometimes mourned with them and laughed at them. His sharp wit and even sharper analysis make for a fascinating read.

Makes these ideas accessible to a general reader complex concepts of relativity and the stimulated emission of light through the use of mathematics no more difficult than one learns in high school.

Written by a noted and successful science writer.

Noted science writer Jeremy Bernstein tells the remarkable story of Einstein 's papers and their impact one century ago.

Explains the many technological ramifications of ideas which changed our lives in the twentieth century and continue to do so.

A curation of essays penned by Jeremy Bernstein, this book is a treasure trove of personal stories ranging from Bernstein's expedition to Mount Everest, cherished encounters with the fathers of Quantum Mechanics (Werner Heisenberg, Paul Dirac and Erwin Schrodinger), to a jovial collaboration with Freeman Dyson on the Orion spaceship project.This essay collection is a door into several pieces of scientific explorations as well as the celebrated life of Jeremy Bernstein, a physicist, professor and phenomenal writer. Readers will enjoy this book as both an autobiography and a popular science reading.

A curation of essays penned by Jeremy Bernstein, this book is a treasure trove of personal stories ranging from Bernstein's expedition to Mount Everest, cherished encounters with the fathers of Quantum Mechanics (Werner Heisenberg, Paul Dirac and Erwin Schrodinger), to a jovial collaboration with Freeman Dyson on the Orion spaceship project.This essay collection is a door into several pieces of scientific explorations as well as the celebrated life of Jeremy Bernstein, a physicist, professor and phenomenal writer. Readers will enjoy this book as both an autobiography and a popular science reading.

Iran s nuclear program has generated intense controversy ever since the International Atomic Energy Agency reported in 2003 that Iran was secretly pursuing enrichment activities. Although Iranian officials insist the program is peaceful, many in the international community are skeptical of Iran s stated aims and some allege there is no greater nuclear-weapons proliferation danger in the world today.

Nuclear Iran" guides readers through the intricate maze of science and secrecy that lies at the heart of Iran s nuclear ambitions. Writing for the general reader, Jeremy Bernstein brings his knowledge as a physicist to bear on the issues, offering elucidations of the scientific principles and technical hurdles involved in creating nuclear reactors and bombs. His explanations range from the physics of fission to methods of isotope separation to the technologies required for weaponizing fissile uranium and plutonium. Iran s construction of centrifuges capable of producing weapons-grade uranium has received much media attention, and Bernstein explains how these complex devices work. He intersperses many elements of the human story into his discussions of technology, such as the fact that centrifuges were first invented by German war prisoners working in the Soviet Union.

Nuclear Iran "turns a spotlight on the controversial underground uranium-enrichment facility in Natanz and heavy water reactor in Arak, and profiles key figures in the ongoing international trade in weapons technology, including the Pakistani physicist A. Q. Khan. This succinct book is timely reading for anyone who wishes to understand the science behind the international crisis surrounding Iran s nuclear program."

'Freeman Dyson has had an extraordinary range of interests, serious activity and influence. This is reflected in the choice of topics in these essays ... This book is informative, very entertaining and well up to the high standards attained previously by this author!'Contemporary PhysicsMy friendship with Freeman Dyson goes back over a half century. My first contact with him goes back to the late 1950s, when I was at the Institute for Advanced Study, and then evolved when I was a consultant at General Atomics in La Jolla, California. Freeman was then trying to design a space ship - the Orion - which would be propelled by atomic bombs. When I left the Institute, Freeman and I continued our correspondence and I saved his letters. They are written in an almost calligraphically elegant handwriting. It is hard to see how you could make a mistake in a mathematical computation if you wrote that clearly. The letters show his human side and his enormous range of knowledge.There are then two essays involving the physicist Fritz Houtermans who was an extraordinarily colorful character. There is a brief essay on Einstein's collaboration with a fraud. There is even an essay on the Titius-Bode law and the new exo-planets. Because of my enduring interest in nuclear weapons, the reader will find essays devoted to that. There is also a bit of fiction at the end.

My friendship with Freeman Dyson goes back over a half century. My first contact with him goes back to the late 1950s, when I was at the Institute for Advanced Study, and then evolved when I was a consultant at General Atomics in La Jolla, California. Freeman was then trying to design a space ship - the Orion - which would be propelled by atomic bombs. When I left the Institute, Freeman and I continued our correspondence and I saved his letters. They are written in an almost calligraphically elegant handwriting. It is hard to see how you could make a mistake in a mathematical computation if you wrote that clearly. The letters show his human side and his enormous range of knowledge. There are then two essays involving the physicist Fritz Houtermans who was an extraordinarily colorful character. There is a brief essay on Einstein's collaboration with a fraud. There is even an essay on the Titius-Bode law and the new exo-planets. Because of my enduring interest in nuclear weapons, the reader will find essays devoted to that. There is also a bit of fiction at the end.

This book is an essay collection, along with short stories, which attempts to explain some scientific ideas.Jeremy Bernstein was a long time staff writer for The New Yorker Magazine as well as a theoretical physicist. He has received several awards for his writing.

This book is an essay collection, along with short stories, which attempts to explain some scientific ideas.Jeremy Bernstein was a long time staff writer for The New Yorker Magazine as well as a theoretical physicist. He has received several awards for his writing.

One Physicist's Guide to Nuclear Weapons presents a truly global look at the history, use, and issues surrounding nuclear weapons from the perspective of physicist and writer Jeremy Bernstein. A first-hand witness to the development and science of nuclear weapons, he is in a unique position to highlight the ways in which nuclear weapons work with a writing style that is suitable for lay readers and scientists alike. Bernstein brings the reader on a journey from the Nevada nuclear-testing fields in the 1950s to the present day situations in Iran and North Korea, while delving into the physics and science behind the bomb. With an introduction by Sir Chris Llewellyn Smith, this book is a testament to the last 70 years of the nuclear age, affecting every human being on the planet.

Here are fifteen pieces on the history and personalities of physics and related fields, from the well-known physicist and essayist Jeremy Bernstein. The pieces in this collection include profiles of Niels Bohr, Marie Curie, Linus Pauling, the linguist Hans Eberstark, and Julian Schwinger; essays on thought experiments, Einstein's scientific legacy, the early debate on black holes, and the cold fusion controversy; and some humorous short fiction. Most of this work has appeared in the New Yorker, Scientific American, or The Atlantic Monthly.

This book of essays in four parts, was written over a decade and full of surprises for the breadth and variety of its subject matter. The first part is about the foundations of the quantum theory which reflects the author's many conversations with the late John Bell who persuaded him that there is still no satisfactory interpretation of the theory. The second part deals with nuclear weapons. One of the essays concerns the creation of the modern gas centrifuge which was done by German prisoners of war in the Soviet Union. The proliferation of these centrifuges was one of the issues in the spread of nuclear weapons. The third section deals with financial engineering with a profile of Louis Bachelier, the French mathematician who created it at the beginning of the 20th century. The final section deals with the Higgs boson and how it is used for generating mass. It includes a detailed article of how this mechanism works.

From molecules to stars, much of the cosmic canvas can be painted in brushstrokes of primary color: the protons, neutrons, and electrons we know so well. But for meticulous detail, we have to dip into exotic hues--leptons, mesons, hadrons, quarks. Bringing particle physics to life as few authors can, Jeremy Bernstein here unveils nature in all its subatomic splendor. In this graceful account, Bernstein guides us through high-energy physics from the early twentieth century to the present, including such highlights as the newly discovered Higgs boson. Beginning with Ernest Rutherford's 1911 explanation of the nucleus, a model of atomic structure emerged that sufficed until the 1930s, when new particles began to be theorized and experimentally confirmed. In the postwar period, the subatomic world exploded in a blaze of unexpected findings leading to the theory of the quark, in all its strange and charmed variations. An eyewitness to developments at Harvard University and the Institute for Advanced Study in Princeton, Bernstein laces his story with piquant anecdotes of such luminaries as Wolfgang Pauli, Murray Gell-Mann, and Sheldon Glashow. Surveying the dizzying landscape of contemporary physics, Bernstein remains optimistic about our ability to comprehend the secrets of the cosmos--even as its mysteries deepen. We now know that over eighty percent of the universe consists of matter we have never identified or detected. A Palette of Particles draws readers into the excitement of a field where the more we discover, the less we seem to know.

Nothing in the history of empire is stranger than the creation of British rule in India, when a small European island became master of a subcontinent ranging from the Indian Ocean to the Himalayas. In the late eighteenth century the person most responsible for this was Warren Hastings, Britain's first governor-general of India. In "Dawning of the Raj," Jeremy Bernstein brings to life in vivid colors Hastings's story amidst the rise of British power. Orphaned early, Hastings worked his way up from the lowest clerk in the East India Company to its highest office in India. His concern for native cultures led him to sponsor the first British expedition to Tibet and the first translation into English of the Bhagavadgita. Brilliant and autocratic, he also made enemies, and upon his return to England they charged him with "high crimes and misdemeanors." His impeachment trial, one of the great spectacles of the age, lasted seven years and pitted Hastings against the likes of Edmund Burke and the playwright Richard Sheridan. It attracted the novelist Fanny Burney, who wrote of it with passion in her Journals. This parliamentary drama, replete with the trappings of state, forms the conclusion to Mr. Bernstein's fascinating, unusual, and completely captivating narrative. With 22 black-and-white illustrations.

What was Albert Einstein like as a person? How did J. Robert Oppenheimer's religious background impact his scientific endeavors? Why did John Stewart Bell get into physics in the first place? Prolific science writer Jeremy Bernstein has followed up on his original Quantum Profiles, published in 1990, with seven added profiles: Wendell Furry, Philipp Frank, J. Robert Oppenheimer, Victor Weisskopf, Tom Lehrer, Max Jammer, and Robert Serber. The profiles on John Stewart Bell, John Wheeler, and Albert Einstein from the first edition have been revised and expanded, as well. Bernstein presents each profile carefully, and the context provided in these historical profiles is revolutionary in each approach. Bernstein's unique academic and social background allows readers to fully grasp the character profiles in each chapter. With a conversational writing style, Bernstein lets readers get to know these ten prolific physicists-from personalities to historical and scientific significance-in a whole new way.

A Song for Molly is both a love story and a poetic homage to science. The subjects in this first-person novella range from encounters with Wittgenstein, Einstein and Goedel, to trying to live with a dog named Molly. The science is serious although the tone is whimsical. The spirit of this book can be demonstrated by a conversation between Einstein and his assistant Ernst Straus:' 'You know Goedel has really gone crazy.' So I said, 'Well, what worse could he have done?' 'He voted for Eisenhower.' '

A Song for Molly is both a love story and a poetic homage to science. The subjects in this first-person novella range from encounters with Wittgenstein, Einstein and Goedel, to trying to live with a dog named Molly. The science is serious although the tone is whimsical. The spirit of this book can be demonstrated by a conversation between Einstein and his assistant Ernst Straus:' 'You know Goedel has really gone crazy.' So I said, 'Well, what worse could he have done?' 'He voted for Eisenhower.' 'Related Link(s)

In the early years of its conception, J Robert Oppenheimer spoke of quantum theory as a subject that was 'unlikely to be known to any poet or historian.' Yet, as Bernstein notes, in just sixty-odd years, one can find at least nine million entries on Google under the rubric 'quantum theory' - from poets and historians, as well as film critics and Buddhist monks. How did quantum mechanics enter general culture so pervasively?Having studied the subject for over a half-century, Jeremy Bernstein returns in this second edition to enlighten readers with a witty insider's perspective on the development of quantum theory as well as its loopholes. It is also a scintillating account of the interplay between brilliance and fallibility in humankind, even in the key figures who have shaped common understanding of quantum theory - such eminent figures include Niels Bohr, the Dalai Lama, Tom Stoppard, and most notably, John Bell who made pioneering contributions in quantum physics.At once thought-provoking and intellectual, this semi-autobiographical popular science book is highly recommended for readers with rudimentary knowledge of science history, philosophy, and naturally, physics.

Makes these ideas accessible to a general reader complex concepts of relativity and the stimulated emission of light through the use of mathematics no more difficult than one learns in high school. Written by a noted and successful science writer. Noted science writer Jeremy Bernstein tells the remarkable story of Einstein's papers and their impact one century ago. Explains the many technological ramifications of ideas which changed our lives in the twentieth century and continue to do so.

Over the years, Jeremy Bernstein has been in contact with many of the world's most renowned physicists and other scientists, many of whom were involved in politics, literature, and language. In this diverse collection of essays, he reflects on their work, their personal relationships, their motives, and their contributions. Even for those people he writes about that he did not know personally, he provides important insights into their lives and work, and questions their character, their decisions, and the lives they led.

In the first three essays, Professor Bernstein looks at economic theory and how some physicists who developed interesting economic models based on derivatives and hedge funds almost led to the country into bankruptcy. In later essays, he discusses a suspect visit to Poland by the great Heisenberg during the Nazi era, a visit that there is almost nothing written about.

Included also are essays on ancient languages and a nuclear weapons program in South Africa that was supposedly dismantled. In one particularly humorous essay, he describes how an ill-conceived manned spaceship to be powered by an atomic bomb was being developed by some of the country's most powerful intellects. The project never got off the ground.

Dipping into these pages is like rummaging around in the mind of a genius who has a potpourri of interests and an abundance of fascinating experiences. Bernstein has not only rubbed elbows with some of the finest minds in world, he has worked and played with them. He has sometimes mourned with them and laughed at them. His sharp wit and even sharper analysis make for a fascinating read.

Kinetic Theory in the Expanding Universe is a self-contained exposition of the applications of kinetic theory to basic problems in modern cosmology, such as the role of stable and unstable massive neutrinos and the theory of cosmological helium production. There has been rapid development of the theory of the origin and evolution of the universe in recent years, stimulated, in large part, by new observations and theories in astrophysics and particle physics. Bernstein takes a different approach and studies what can be concluded from the application of kinetic theory, and in particular the Boltzmann equation and its solutions, to cosmological problems. He begins with a brief survey of the necessary relativity, cosmodynamics, and kinetic theory, before going on to discuss specific problems, such as the role of stable and unstable massive neutrinos, electron-positron annihilation and the theory of cosomological helium production. The focus is in obtaining both a theoretical understanding and concrete numerical results.

In the early years of its conception, J Robert Oppenheimer spoke of quantum theory as a subject that was 'unlikely to be known to any poet or historian.' Yet, as Bernstein notes, in just sixty-odd years, one can find at least nine million entries on Google under the rubric 'quantum theory' - from poets and historians, as well as film critics and Buddhist monks. How did quantum mechanics enter general culture so pervasively?Having studied the subject for over a half-century, Jeremy Bernstein returns in this second edition to enlighten readers with a witty insider's perspective on the development of quantum theory as well as its loopholes. It is also a scintillating account of the interplay between brilliance and fallibility in humankind, even in the key figures who have shaped common understanding of quantum theory - such eminent figures include Niels Bohr, the Dalai Lama, Tom Stoppard, and most notably, John Bell who made pioneering contributions in quantum physics.At once thought-provoking and intellectual, this semi-autobiographical popular science book is highly recommended for readers with rudimentary knowledge of science history, philosophy, and naturally, physics.

From April through December of 1945, ten of Nazi Germany's greatest nuclear physicists were detained by Allied military and intelligence services in a kind of gilded cage at Farm Hall, an English country manor near Cambridge. The physicists knew the Reich had failed to develop an atomic bomb, and they soon learned, from a BBC radio report on August 6, that the Allies had succeeded in their own efforts to create such a weapon. But what they did not know was that many of their meetings and private conversations were being monitored and recorded by British agents. This book contains the complete collection of transcripts that were made from these secret recordings, providing an unprecedented view of how the German scientists, including two Nobel Laureates, thought and spoke about their roles during the war.

Kinetic Theory in the Expanding Universe is a self-contained exposition of the applications of kinetic theory to basic problems in modern cosmology, such as the role of stable and unstable massive neutrinos and the theory of cosmological helium production. There has been rapid development of the theory of the origin and evolution of the universe in recent years, stimulated, in large part, by new observations and theories in astrophysics and particle physics. Bernstein takes a different approach and studies what can be concluded from the application of kinetic theory, and in particular the Boltzmann equation and its solutions, to cosmological problems. He begins with a brief survey of the necessary relativity, cosmodynamics, and kinetic theory, before going on to discuss specific problems, such as the role of stable and unstable massive neutrinos, electron-positron annihilation and the theory of cosomological helium production. The focus is in obtaining both a theoretical understanding and concrete numerical results.

When plutonium was first manufactured at Berkeley in the spring of 1941, there was so little of it that it was not visible to the naked eye. It took a year to accumulate enough so that one could actually see it. Now so much has been produced that we don't know what to do to get rid of it. We have created a monster.

The history of plutonium is as strange as the element itself. When scientists began looking for it, they did so simply in the spirit of inquiry, not certain whether there were still spots to fill on the periodic table. But the discovery of fission made it clear that this still-hypothetical element would be more than just a scientific curiosity it could be the main ingredient of a powerful nuclear weapon. As it turned out, it is good for almost nothing else. Plutonium's nuclear potential put it at the heart of the World War II arms race the Russians found out about it through espionage, the Germans through independent research, and everybody wanted some. Now it is warehoused around the world the United States alone possesses about forty-seven metric tons but it has almost no practical use outside its role in nuclear weaponry. How did the product of scientific curiosity become such a dangerous burden?

In his history of this complex and dangerous element, noted physicist Jeremy Bernstein describes the steps that were taken to transform plutonium from a laboratory novelty into the nuclear weapon that destroyed Nagasaki. This is the first book to weave together the many strands of plutonium's story, explaining not only the science but also the people involved."