New Books
Quantum Drama: From the Bohr-Einstein Debate to the Riddle of Entanglement
The definitive account of the great Bohr-Einstein debate and its continuing legacy In 1927, Niels Bohr and Albert Einstein began a debate about the interpretation and meaning of the new quantum theory. This would become one of the most famous debates in the history of science. At stake were an understanding of the purpose, and defense of the integrity, of science. What (if any) limits should we place on our expectations for what science can tell us about physical reality? Our protagonists slowly disappeared from the vanguard of physics, as its centre of gravity shifted from a war-ravaged Continental Europe to a bold, pragmatic, post-war America. What Einstein and Bohr had considered to be matters of the utmost importance were now set aside. Their debate was regarded either as settled in Bohr's favour or as superfluous to real physics. But the debate was not resolved. The problems of interpretation and meaning persisted, at least in the minds of a few stubborn physicists, such as David Bohm and John Bell, who refused to stop asking awkward questions. The Bohr-Einstein debate was rejoined, now with a new set of protagonists, on a small scale at first. Through their efforts, the debate was revealed to be about physics after all. Their questions did indeed have answers that could be found in a laboratory. As quantum entanglement became a real physical phenomenon, whole new disciplines were established, such as quantum computing, teleportation, and cryptography. The efforts of the experimentalists were rewarded with shares in the 2022 Nobel prize in physics. As Quantum Drama reveals, science owes a large debt to those who kept the discussions going against the apathy and indifference of most physicists before definitive experimental inquiries became possible. Although experiment moved the Bohr-Einstein debate to a new level and drew many into foundational research, it has by no means removed or resolved the fundamental question. There will be no Nobel prize for an answer. That will not shut off discussion. Our Drama will continue beyond our telling of it and is unlikely to reach its final scene before science ceases or the world ends.
Escape from Shadow Physics: The Quest to End the Dark Ages of Quantum Theory
The "artfully written...splendid history of classical and quantum physics" (Science) that "rightfully highlights the limitations of current physics" (Wall Street Journal) and argues for a revolutionary new understanding of quantum mechanics The received wisdom in quantum physics is that, at the deepest levels of reality, there are no actual causes for atomic events. This idea led to the outlandish belief that quantum objects--indeed, reality itself--aren't real unless shaped by human measurement. Einstein mocked this idea, asking whether his bed spread out across his room unless he looked at it. And yet it remains one of the most influential ideas in science and our culture. In Escape from Shadow Physics, Adam Forrest Kay takes up Einstein's torch: reality isn't mysterious or dependent on human measurement, but predictable and independent of us. At the heart of his argument is groundbreaking research with little drops of oil. These droplets behave as particles do in the long-overlooked quantum theory of pilot waves; crucially, they showcase quantum behavior while being described by classical physics. And that classical-quantum interface points to a true understanding of quantum mechanics and a reasonable universe. A bold and essential reset of the field, Escape from Shadow Physics describes the kind of true scientific revolution that comes along just once--or less--in a century.
Accidental Astronomy: How Random Discoveries Shape the Science of Space
A "riveting real-life Hitchhiker's Guide to the Galaxy" (The Telegraph), told "with an engaging voice, a diverting sense of humor, and a humble awe for the wonders of the universe" (Wall Street Journal), shows why so much of astronomy comes down to looking up and lucking out If you learn about the scientific method, you learn that first we hypothesize about something we've experienced, and then we look for more of it. This works well enough--but what if you are interested in studying a heretofore unknown comet or supernova? That is the essential problem of the astronomer: the most important discoveries happen without notice! Indeed, as Chris Lintott argues in Accidental Astronomy, luck defines astronomy. Lintott explores the ways in which happenstance shapes how we investigate the sky. To catch a glimpse of a comet, asteroid, or even a sign of alien life, we must be in the right place at the right time. And if we can't be there, we must have a team of professionals and amateurs, across the globe, ready to spring into action at a moment's--or a night's--notice. For any astronomer, regardless of their experience or resources, the first step to discovery is the same: to stare at the sky and wait. A celebration of astronomy, stargazing, and cosmic discovery, Accidental Astronomy offers an irresistible window into how luck defines our knowledge of the skies.
CRC Handbook of Chemistry and Physics
The 105th Edition of the CRC Handbook of Chemistry and Physics has significant improved coverage that bring important data to serve researchers in academia, industry, and government laboratories in chemistry, physics, and other scientific disciplines. The updated contents include: New data sets in x-ray related analytical chemistry First-ever critical compilations of transition point data for metal (carbide)-carbon and metal oxyanions transitions Updated datasets for eight properties of water, heavy water, and steam Important environmental chemistry data Highlights of the 105th Edition of the CRC Handbook of Chemistry and Physics include: 369 different topics are included, with 771 distinct data tables and figures 8 new topics added in this 105th Edition 26 topics have major updates in the 105th Edition Harmonized property and variable names and symbols Wide range of property data on more than 20,000 compounds of greatest interest in research and industry The CRC Handbook is citable as a reliable data source, and the data in the Handbook are traceable Coverage of atomic elements and isotopes without peer Common properties on common compounds under common conditions Reliability for modeling, knowledge discovery New sections focused on important current topics including environmental chemistry and solid-state chemistry and physics
Putting Ourselves Back in the Equation: Why Physicists Are Studying Human Consciousness and AI to Unravel the Mysteries of the Universe
"This is a delightful account of one of the deepest and most fascinating explorations going on today at the frontier of our knowledge." --Carlo Rovelli, bestselling author of The Order of Time and Seven Brief Lessons on Physics "Musser knows that the point of popular science is [. . .] to get a sense of what's at stake, what kinds of answers are being offered to difficult questions, and why it all matters. One could not ask more of Putting Ourselves Back in the Equation--on all three counts it delivers." --Julian Baggini, The Wall Street Journal A revelatory exploration of how a "theory of everything" depends upon our understanding of the human mind. The whole goal of physics is to explain what we observe. For centuries, physicists believed that observations yielded faithful representations of what is out there. But when they began to study the subatomic realm, they found that observation often interferes with what is being observed--that the act of seeing changes what we see. The same is true of cosmology: our view of the universe is inevitably distorted by observation bias. And so whether they're studying subatomic particles or galaxies, physicists must first explain consciousness--and for that they must turn to neuroscientists and philosophers of mind. Neuroscientists have painstakingly built up an understanding of the structure of the brain. Could this help physicists understand the levels of self-organization they observe in other systems? These same physicists, meanwhile, are trying to explain how particles organize themselves into the objects around us. Could their discoveries help explain how neurons produce our conscious experience? Exploring these questions and more, George Musser tackles the extraordinary interconnections between quantum mechanics, cosmology, human consciousness, and artificial intelligence. Combining vivid descriptive writing with portraits of scientists working on the cutting edge, Putting Ourselves Back in the Equation shows how theories of everything depend on theories of mind--and how they might be one and the same.
Her Space, Her Time: How Trailblazing Women Scientists Decoded the Hidden Universe
An exciting new title in the vein of Hidden Figures, which tells the inspiring stories of long-overlooked women physicists and astronomers who discovered the fundamental rules of the universe and reshaped the rules of society. Women physicists and astronomers from around the world have transformed science and society, but the critical roles they played in their fields are not always well-sung. Her Space, Her Time, authored byaward-winning quantum physicist Shohini Ghose, brings together the stories of these remarkable women to celebrate their indelible scientific contributions. In each chapter of the book,Ghose explores a scientific topic and explains how the women featured in that chapter revolutionized that area of physics and astronomy. In doing so, she also addresses particular aspects of women's experiences in physics and astronomy- in the chapter on time, for instance, we learn of Henrietta Leavitt andMargaret Burbidge, who helped discover the big bang and the cosmic calendar; in the chapter on space exploration, we learn of Anigaduwagi (Cherokee) aerospace scientist Mary Golda Ross,who helped make the Moon landings possible; and in the chapter on subatomic particles, we learn of Marietta Blau, Hertha Wambacher, and Bibha Chowdhuri, who contributed to the discovery of the building blocks of the universe, and, in doing so, played a crucial role in determining who gets to do physics today. Engaging, accessible, and timely, Her Space, Her Time is a collective story of scientific innovation, inspirational leadership, and overcoming invisibility that will leave a lasting impression on any reader curious about the rule-breakers and trendsetters who illuminated our understanding of the universe. Some of the featured women scientists in the book Williamina Fleming Annie Jump Cannon Cecilia Payne-Gaposchkin Antonia Maury Henrietta Leavitt Margaret Burbidge Mary Golda Ross Dilhan Eryurt Claudia Alexander Joyce Neighbors Navajo women of Shiprock Harriet Brooks Marie Curie Lise Meitner Marietta Blau Hertha Wambacher Bibha Chowdhuri Wu Chien-Shiung Women of the Manhattan Project Vera Rubin
Dialogue on the Two Greatest World Systems
'The truth which we arrive at by means of mathematical proofs is the same truth that is known to divine wisdom.' Galileo's Dialogue on the Two Greatest World Systems, the most brilliant and persuasive defence of the Copernican theory that the Earth goes around the Sun to have been written in the seventeenth century, is one of the foundation texts of modern science. This new translation renders Galileo's lively Italian prose in clear modern English, making the whole of Galileo's text readily accessible to modern readers, while William Shea's introduction and notes give a clear overview of Galileo's career and draw on the most recent scholarship to explain the scientific and philosophical background to the text. This volume provides everything necessary for an informed reading of Galileo's masterpiece. ABOUT THE SERIES: For over 100 years Oxford World's Classics has made available the widest range of literature from around the globe. Each affordable volume reflects Oxford's commitment to scholarship, providing the most accurate text plus a wealth of other valuable features, including expert introductions by leading authorities, helpful notes to clarify the text, up-to-date bibliographies for further study, and much more.
Grace in All Simplicity: Beauty, Truth, and Wonders on the Path to the Higgs Boson and New Laws of Nature
An enthralling and accessible account of humanity's quest to make sense of our physical world, told through interwoven tales of inspiration, tragedy, and triumph. How do the remarkable recent discoveries of the Higgs boson, dark matter, and dark energy connect with the equally revolutionary discoveries in centuries past? In Grace in All Simplicity, readers will delight in Cahn and Quigg's engaging prose and see how the infinite and the infinitesimal are joined. Today, physicists and astronomers are exploring distances from a billionth of a billionth of the human scale to the entire cosmos, and contemplating time intervals that range from less than a trillionth of a trillionth of a second out to far longer than the age of the universe. Leaving home in this metaphorical way requires devising new instruments that spectacularly expand our senses and conceiving original ways of thinking that expand our minds. This is at once an act of audacity and an exercise in humility. Grace in All Simplicity narrates the saga of how we have prospected for some of Nature's most tightly held secrets, the basic constituents of matter and the fundamental forces that rule them. Our current understanding of the world (and universe) we inhabit is the result of curiosity, diligence, and daring, of abstraction and synthesis, and of an abiding faith in the value of exploration. In these pages we will meet scientists of both past and present. These men and women are professional scientists and amateurs, the eccentric and the conventional, performers and introverts. Scientists themselves, Cahn and Quigg convey their infectious joy as they search for new laws of nature. Join the adventure as scientists ascend mountain tops and descend into caverns deep underground, travel to the coldest places on Earth, and voyage back in time to near the birth of the Universe. Visit today's great laboratories and the astounding instruments they house. Grace in All Simplicity is a thrilling voyage filled with improbable discoveries and the extraordinary community of people who make them. Together, we will travel the path to the Higgs boson, weigh the evidence for subliminal dark matter, and learn what makes scientists invoke a mysterious agent named "dark energy." We will behold the emergence of a compelling picture of matter and forces, simple in its structure, graceful in the interplay of its parts, but still tantalizingly incomplete.
A Quantum Life: My Unlikely Journey from the Street to the Stars
In this inspiring coming-of-age memoir, a world-renowned astrophysicist emerges from an impoverished childhood and crime-filled adolescence to ascend through the top ranks of research physics. NAMED ONE OF THE BEST BOOKS OF THE YEAR BY KIRKUS REVIEWS * "You'll encounter one extraordinary turn of events after another, as the extraordinary chess player, puzzle solver, and occasional grifter works his way from grinding poverty and deep despair to worldwide acclaim as a physicist."--Bill Nye, CEO of The Planetary Society Navigating poverty, violence, and instability, a young James Plummer had two guiding stars--a genius IQ and a love of science. But a bookish nerd is a soft target, and James faced years of bullying and abuse. As he struggled to survive his childhood in some of the country's toughest urban neighborhoods in New Orleans, Houston, and LA, and later in the equally poor backwoods of Mississippi, he adopted the persona of "gangsta nerd"--dealing weed in juke joints while winning state science fairs with computer programs that model Einstein's theory of relativity. Once admitted to the elite physics PhD program at Stanford University, James found himself pulled between the promise of a bright future and a dangerous crack cocaine habit he developed in college. With the encouragement of his mentor and the sole Black professor in the physics department, James confronted his personal demons as well as the entrenched racism and classism of the scientific establishment. When he finally seized his dream of a life in astrophysics, he adopted a new name, Hakeem Muata Oluseyi, to honor his African ancestors. Alternately heartbreaking and hopeful, A Quantum Life narrates one man's remarkable quest across an ever-expanding universe filled with entanglement and choice.
Superheavy: Making and Breaking the Periodic Table
Shortlisted for the 2020 AAAS/Subaru SB&F Prize for Excellence in Science Books Creating an element is no easy feat. It's the equivalent of firing six trillion bullets a second at a needle in a haystack, hoping the bullet and needle somehow fuse together, then catching it in less than a thousandth of a second - after which it's gone forever. Welcome to the world of the superheavy elements: a realm where scientists use giant machines and spend years trying to make a single atom of mysterious artefacts that have never existed on Earth. From the first elements past uranium and their role in the atomic bomb to the latest discoveries stretching our chemical world, Superheavy will reveal the hidden stories lurking at the edges of the periodic table. Why did the US Air Force fly planes into mushroom clouds? Who won the transfermium wars? How did an earthquake help give Japan its first element? And what happened when Superman almost spilled nuclear secrets? In a globe-trotting adventure that stretches from the United States to Russia, Sweden to Australia, Superheavy is your guide to the amazing science filling in the missing pieces of the periodic table. By the end you'll not only marvel at how nuclear science has changed our lives - you'll wonder where it's going to take us in the future.
In a Flight of Starlings: The Wonders of Complex Systems
From the 2021 Nobel Prize winner in Physics, an enlightening and personal journey into the practice of groundbreaking science " Giorgio Parisi is an extraordinary scientist." -Carlo Rovelli With In a Flight of Starlings, celebrated physicist Giorgio Parisi guides us through his unorthodox yet exhilarating work, starting with investigating the principles of physics by observing the flight of flocks of birds. Studying the movements of these communities, he has realized, proves an illuminating way into understanding complex systems of all kinds-collections of everything from atoms and planets to other animals, such as ourselves. Along the way, he reflects on the lessons he has taken from a life in pursuit of scientific truth- the importance of serendipity to the discovery of new ideas, the surprising kinship between physics and other disciplines, and the value of science to a thriving society. In so doing, he removes the practice of science from the confines of the laboratory and brings it into the real world. Part elegant scientific treatise, part thrilling journey of discovery, In a Flight of Starlings is an invitation to find wonder in the world around us.
The SAGE Encyclopedia of Theory in Science, Technology, Engineering, and Mathematics
Project Description: Theories are part and parcel of every human activity that involves knowing about the world and our place in it. In all areas of inquiry from the most commonplace to the most scholarly and esoteric, theorizing plays a fundamental role. The SAGE Encyclopedia of Theory in Science, Technology, Engineering, and Mathematics focuses on the ways that various STEM disciplines theorize about their subject matter. How is thinking about the subject organized? What methods are used in moving a novice in given field into the position of a competent student of that subject? Within the pages of this landmark work, readers will learn about the complex decisions that are made when framing a theory, what goes into constructing a powerful theory, why some theories change or fail, how STEM theories reflect socio-historical moments in time and how - at their best - they form the foundations for exploring and unlocking the mysteries of the world around us. Featuring more than 200 authoritative articles written by experts in their respective fields, the encyclopedia includes a Reader's Guide that organizes entries by broad themes; lists of Further Readings and cross-references that conclude each article; and a Resource Guide listing classic books in the field, leading journals, associations, and key websites.
Quantum Supremacy: How the Quantum Computer Revolution Will Change Everything
NEW YORK TIMES BESTSELLER * An exhilarating tour of humanity's next great technological achievement--quantum computing--which may supercharge artificial intelligence, solve some of humanity's biggest problems, like global warming, world hunger, and incurable disease, and eventually illuminate the deepest mysteries of science, by the bestselling author of The God Equation. * "Expertly describes and rectifies common misconceptions about quantum computing." --Science "[Kaku's] lucid prose and thought process make abundant sense of this technological turning point." --The New York Times Book Review The runaway success of the microchip may finally be reaching its end. As shrinking transistors approach the size of atoms, the phenomenal growth of computational power inevitably collapses. But this change heralds the birth of a revolutionary new type of computer, one that calculates on atoms themselves. Quantum computers promise unprecedented gains in computing power, enabling advancements that could overturn every aspect of our daily lives. While the media has mainly focused on their startling potential to crack any known encryption method, the race is already on to exploit their incredible power to revolutionize industry. Automotive makers, medical researchers, and consulting firms are all betting on quantum computing to design more efficient vehicles, create life-saving new drugs, and streamline businesses. But this is only the beginning. Quantum computing could be used to decode the complex chemical processes needed to produce cheap fertilizers and unleash a second Green Revolution; create a super battery that will enable the Solar Age; or design nuclear fusion reactors to generate clean, safe, renewable energy. It may even unravel the fiendishly difficult protein folding that lies at the heart of as-yet-incurable diseases like Alzheimer's, ALS, and Parkinson's. Already, quantum computers are being put to work to help solve the greatest mystery in science--the origin of the universe. There is no single problem humanity faces that might not be addressed by quantum computers. With his signature clarity and enthusiasm, Dr. Michio Kaku, who has spent his entire professional life working on the quantum theory, tells the thrilling story of this exciting scientific frontier and the race to claim humanity's future.
The Lost Scientists of World War II
This book tells the stories of scientists from Germany and other European countries who vanished during World War II. These erudite scholars contributed to diverse scientific fields and were associated with some of the world's leading universities and research institutions. Despite their proficiency, they all sought help from agencies to relocate to the UK in the 1930s, but were unable to secure the necessary assistance.The Lost Scientists of World War II explores the fascinating narratives of thirty of these scientific refugees, delving into the reasons behind the unavailability of aid and presenting fresh insights into the tragic fates or astounding survival experiences of these individuals.
The Alladi Diary: Memoirs of Alladi Ramakrishnan
This is a kaleidoscopic account of the remarkable life story of Alladi Ramakrishnan (1923-2008), an internationally reputed physicist, and the son of Sir Alladi Krishnaswami Iyer (1883-1953), one of India's most eminent jurists.Part I of the autobiography gives a fascinating account his early life in Madras, India during the last decades of British colonial rule, and the leading role played by Sir Alladi in drafting the Constitution of India. Then follows the incredible saga of his creation of MATSCIENCE, The Institute of Mathematical Sciences, in Madras, inspired by his visit to the Institute for Advanced Study in Princeton, and the result of a Theoretical Physics Seminar which he organized in his family home Ekamra Nivas in Madras, which received the endorsement of Nobel Laureate Niels Bohr, and the support of India's Prime Minister Jawaharlal Nehru.Part II covers the period of Ramakrishnan's term as Director of MATSCIENCE, and his visits to about 200 centres of learning the world over, where he interacted with leading scientists and lectured on his research in the fields of Probability, Stochastic Processes, Elementary Particle Physics, Matrix Theory, and on his novel treatment of Einstein's Special Relativity. Historical photos, letters, and documents of special interest are included.
Schrödinger in Oxford
'Clary's account makes for fascinating reading, not least because of its clear style and copious citation of primary sources and original scientific articles. The author provides a compelling narrative of ... Schrödinger's departure in 1933 from a highly eminent position at the University of Berlin to a precarious, untenured position at Magdalen College ... with political and scientific considerations deftly woven together.' [Read Full Review]ScienceErwin Schrödinger was one of the greatest scientists of all time but it is not widely known that he was a Fellow at Magdalen College, Oxford in the 1930s. This book is an authoritative account of Schrödinger's time in Oxford by Sir David Clary, an expert on quantum chemistry and a former President of Magdalen College, who describes Schrödinger's remarkable life and scientific contributions in a language that can be understood by all. Through access to many unpublished manuscripts, the author reveals in unprecedented detail the events leading up to Schrödinger's sudden departure from Berlin in 1933, his arrival in Oxford and award of the Nobel Prize, his dramatic escape from the Nazis in Austria to return to Oxford, and his urgent flight from Belgium to Dublin at the start of the Second World War.The book presents many acute observations from Schrödinger's wife Anny and his daughter Ruth, who was born in Oxford and became an acquaintance of the author in the last years of her life. It also includes a remarkable letter sent to Schrödinger in Oxford from Adolf Hitler, thanking him for his services to the state as a professor in Berlin. Schrödinger's intense interactions with other great scientists who were also refugees during this period, including Albert Einstein and Max Born, are examined in the context of the chaotic political atmosphere of the time. Fascinating anecdotes of how this flamboyant Austrian scientist interacted with the President and Fellows of a highly traditional Oxford College in the 1930s are a novel feature of the book.A gripping and intimate narrative of one of the most colourful scientists in history, Schrödinger in Oxford explains how his revolutionary breakthrough in quantum mechanics has become such a central feature in 21st century science.
Sharing Our Science: How to Write and Speak STEM
A personal, practical, and inspirational guide to written and oral STEM communications for scientists and technical professionals. In Sharing Our Science, scientist-turned-writing teacher Brandon Brown offers an eminently useful guidebook for STEM practitioners looking to communicate their technical work to either a technical or a broader audience. Professionals are increasingly required to communicate their work through blogs, podcasts, and newsletters and to submit to traditional media. After seeing his colleagues struggle to find a writing guide that tackled the unique challenges of writing and speaking about scientific topics, Brown set out to write the definitive handbook to assist STEM students, scientists, engineers, and tech workers alike. In this practical and relevant book, Brown uses his experience as a proven science communicator to cover three levels of writing: fundamental craft considerations, such as narrative tension, structure, sentences, and audience; unique scientific considerations, such as conveying numbers and utilizing metaphors; and finally, social considerations, such as public speaking and writing inside and outside of silos. In place of a reference manual, Brown's engaging narrative guide clarifies the fundamental principles that impact all scientific communication tasks, from white papers and slide decks to Zoom meetings and emails. Sharing Our Science represents the culmination of a lifetime of writing, research, and teaching that will enrich scientists' careers and illuminate the ways in which science is done and conveyed to the world.
Being Human in STEM: Partnering with Students to Shape Inclusive Practices and Communities
For all STEM faculty, chairs, administrators, and faculty developers who work to support students' learning and thriving in STEM - especially those students who have felt unwelcome and unsupported in their past STEM experiences - this book offers sustainable strategies that are now being widely adopted to create inclusive environments in undergraduate STEM classes and programs. Further, this book presents a framework for partnering with students to collaboratively envision how STEM can be a space that fosters a sense of belonging for, and promotes the success of, all individuals in STEM. This book presents the Being Human in STEM Initiative, or HSTEM, as a model for challenging the assumptions we make, and how we communicate to students, about who belongs and who can thrive in STEM. This work arose out of a time of conflict at Amherst College: A four-day sit-in, protesting in support of the Black Lives Matter movement and bringing attention to related experiences of exclusion and marginalization that minoritized students experienced on campus. What emerged from that conflict has been transformative for the college, its students, and for its faculty and staff. In this book, the authors share how the HSTEM course came into being, offer a course overview, readings, and resources for developing an HSTEM course at your own institution, provide recommendations for evaluating the multi-level impact of inclusive change initiatives, and profile models of how the HSTEM course has been adapted at colleges and universities across the country. In addition to providing a road map for developing your own HSTEM course, the authors articulate ways that you can make any course or institutional structure more inclusive through active listening and validation, and through reflective practice and partnership, to progressively make incremental and sustainable changes in STEM education. Through listening and reflecting, the model facilitates uncovering the disconnects that can impede inclusivity in our classrooms and laboratories. While the authors offer a proven process and model for change, originally motivated by the urgent need to respond to students' demands, they recognize that larger institutional culture shifts require the identification and commitment to common values, a shared sense of purpose in the work of change, and the provision of agency and resources to individuals tasked with making change happen. How might we shift institutional STEM culture? The HSTEM model provides one solution: By reflecting on our own lived experiences and identities, engaging with the literature on the factors that enhance and limit full inclusion in STEM, and partnering with students to identify actionable ways to bring about sustainable change in our scientific communities, we can all work towards creating a more inclusive, and human, STEM ecosystem.Each chapter opens with a set of guiding reflective questions to help you connect these ideas, frameworks, and strategies to your own teaching and institutional context. While each chapter builds on the previous ideas and frameworks, the book can also be used as a resource to identify a just-in-time strategy to address particular questions you may have about making your teaching more inclusive. The appendices offer an array of Facilitator Guides, each of which outlines a student-endorsed exercise, based on the pedagogical literature, that can foster a sense of belonging and inclusion in your classrooms and laboratory spaces.
Nonlinear Field Theories and Unexplained Phenomena in Nature
The book is devoted to several topical questions in modern mathematical and theoretical physics, astrophysics, geophysics, and cosmology that remain unsolved within the framework of the standard approaches. To them, one can attribute unexplained properties of the magnetic fields of stars and planets, puzzles of the Earth's atmosphere, the phenomenon of ball lightning, the problem of a qualitative description for nuclear forces and their well-known property of saturation, enigmatic properties of spiral galaxies, the problem of the cosmological singularity, mysteries of the dark matter and dark energy, amongst others. To find theoretical ways for understanding such phenomena, new nonlinear generalizations of the classical field theories and advanced methods to solve nonlinear equations arising in them are studied and presented in this book.
How to Derive a Formula
Will artificial intelligence solve all problems, making scientific formulae redundant? The authors of this book would argue that there is still a vital role in formulating them to make sense of the laws of nature. To derive a formula one needs to follow a series of steps; last of all, check that the result is correct, primarily through the analysis of limiting cases. The book is about unravelling this machinery.Mathematics is the 'queen of all sciences', but students encounter many obstacles in learning the subject -- familiarization with the proofs of hundreds of theorems, mysterious symbols, and technical routines for which the usefulness is not obvious upfront. Those interested in the physical sciences could lose motivation, not seeing the wood for the trees.How to Derive a Formula is an attempt to engage these learners, presenting mathematical methods in simple terms, with more of an emphasis on skills as opposed to technical knowledge. Based on intuition and common sense rather than mathematical rigor, it teaches students from scratch using pertinent examples, many taken across the physical sciences. This book provides an interesting new perspective of what a mathematics textbook could be, including historical facts and humour to complement the material.
Interstellar: The Search for Extraterrestrial Life and Our Future in the Stars
"The world's leading alien hunter" -- New York Times Magazine From acclaimed Harvard astrophysicist and bestselling author of Extraterrestrial comes a mind-expanding new book explaining why becoming an interstellar species is imperative for humanity's survival and detailing a game plan for how we can settle among the stars. In the New York Times bestseller Extraterrestrial, Avi Loeb, the longest serving Chair of Harvard's Astronomy Department, presented a theory that shook the scientific community: our solar system, Loeb claimed, had likely been visited by a piece of advanced alien technology from a distant star. This provocative and persuasive argument opened millions of minds internationally to the vast possibilities of our universe and the existence of intelligent life beyond Earth. But a crucial question remained: now that we are aware of the existence of extraterrestrial life, what do we do next? How do we prepare ourselves for interaction with interstellar extraterrestrial civilization? How can our species become interstellar? Now Loeb tackles these questions in a revelatory, powerful call to arms that reimagines the idea of contact with extraterrestrial civilizations. Dismantling our science-fiction fueled visions of a human and alien life encounter, Interstellar provides a realistic and practical blueprint for how such an interaction might actually occur, resetting our cultural understanding and expectation of what it means to identify an extraterrestrial object. From awe-inspiring searches for extraterrestrial technology, to the heated debate of the existence of Unidentified Aerial Phenomena, Loeb provides a thrilling, front-row view of the monumental progress in science and technology currently preparing us for contact. He also lays out the profound implications of becoming--or not becoming--interstellar; in an urgent, eloquent appeal for more proactive engagement with the world beyond ours, he powerfully contends why we must seek out other life forms, and in the process, choose who and what we are within the universe. Combining cutting edge science, physics, and philosophy, Interstellar revolutionizes the approach to our search for extraterrestrial life and our preparation for its discovery. In this eye-opening, necessary look at our future, Avi Loeb artfully and expertly raises some of the most important questions facing us as humans, and proves, once again, that scientific curiosity is the key to our survival.