Here are 100 books that Statistical Mechanics fans have personally recommended if you like
Statistical Mechanics.
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During Covid, I gave myself the Story-a-Month Challenge. I started a story on the first day of each month and stopped on the last day. A subconscious theme emerged: the struggles of grown people and their parents, done fantastically. By year’s end, I had twelve stories, placed in magazines somewhere. I collected them, adding earlier stories, longer and with younger protagonists, but with the same theme of arrested development. I called the book “Adult Children,” a wry reference to offspring of alcoholics (I am one). Also subconscious: my inspiration from other authors of fantastical collections, some of whom I’ve included here.
Unlike those of Richard Matheson, the stories of Italo Calvino are rarely adapted for stage or screen, his estate holding a heavy hand on the rights (I know—I’ve tried).
One of my favorite writers, Calvino specializes in eccentric, surreal stories as funny as they are moving.
Cosmicomics is a linked collection, each tale an imaginative fiction about the origins of a scientific idea, from the Big Bang (the narrator lives in a crazily cramped space with his family during the explosion) to evolution (his embarrassing old uncle still lives in the sea and refuses to make the trip to land). These stories combine whimsicality and gravity as few others do.
Introducing Little Clothbound Classics: irresistible, mini editions of short stories, novellas and essays from the world's greatest writers, designed by the award-winning Coralie Bickford-Smith.
Celebrating the range and diversity of Penguin Classics, they take us from snowy Japan to springtime Vienna, from haunted New England to a sun-drenched Mediterranean island, and from a game of chess on the ocean to a love story on the moon. Beautifully designed and printed, these collectible editions are bound in colourful, tactile cloth and stamped with foil.
Twelve enchanting and fantastical stories about the evolution of the universe from the giant of Italian literature,…
Magical realism meets the magic of Christmas in this mix of Jewish, New Testament, and Santa stories–all reenacted in an urban psychiatric hospital!
On locked ward 5C4, Josh, a patient with many similarities to Jesus, is hospitalized concurrently with Nick, a patient with many similarities to Santa. The two argue…
I am a physics professor with a passion for teaching. When I was a graduate student, I took required courses in classical mechanics, classical electrodynamics, quantum mechanics, and statistical mechanics. Some of the textbooks assigned by my professors were good; some were not so good. In every case, it was extremely helpful to read what other authors had to say about these foundational subjects. Four of the five books I recommend below are my personal favorites among these serious physics books. My fifth book choice is less serious and does not teach physics, but it will improve your graduate student experience nonetheless.
This book helped me pass my PhD qualifying exam. The writing style is crisp and qualitative arguments abound. Baym treats perturbation theory and scattering theory particularly nicely and your interest will never flag because he illustrates the formal theory with wonderfully chosen examples like K-meson interference effects, the Van der Waals interaction, Cooper pairing, spin resonance, multipole radiation, Klein’s paradox, and the Hanbury-Brown and Twiss experiment. A special treat not found in other textbooks is a discussion of Julian Schwinger’s unique take on the quantum theory of angular momentum.
These lecture notes comprise a three-semester graduate course in quantum mechanics at the University of Illinois. There are a number of texts which present the basic topics very well; but since a fair quantity of the material discussed in my course was not available to the students in elementary quantum mechanics books, I was asked to prepare written notes. In retrospect these lecture notes seemed sufficiently interesting to warrant their publication in this format. The notes, presented here in slightly revised form, consitutute a self-contained course in quantum mechanics from first principles to elementary and relativistic one-particle mechanics. Prerequisite to…
I am a physics professor with a passion for teaching. When I was a graduate student, I took required courses in classical mechanics, classical electrodynamics, quantum mechanics, and statistical mechanics. Some of the textbooks assigned by my professors were good; some were not so good. In every case, it was extremely helpful to read what other authors had to say about these foundational subjects. Four of the five books I recommend below are my personal favorites among these serious physics books. My fifth book choice is less serious and does not teach physics, but it will improve your graduate student experience nonetheless.
I love this book! Of course, it teaches the mathematics of the Lagrangian and Hamiltonian approaches to classical mechanics. But its real uniqueness lies in how the author explains the basic concepts of the subject with a constant emphasis on intuitive physics. It was only after reading Lanczos that I finally understood what variational calculations were really about. Ditto for virtual work, non-holonomic constraints, Liouville’s theorem and Hamilton-Jacobi theory. I barely noticed that I was learning about the history and philosophy of classical mechanics at the same time.
Analytical mechanics is, of course, a topic of perennial interest and usefulness in physics and engineering, a discipline that boasts not only many practical applications, but much inherent mathematical beauty. Unlike many standard textbooks on advanced mechanics, however, this present text eschews a primarily technical and formalistic treatment in favor of a fundamental, historical, philosophical approach. As the author remarks, there is a tremendous treasure of philosophical meaning" behind the great theories of Euler and Lagrange, Hamilton, Jacobi, and other mathematical thinkers. Well-written, authoritative, and scholarly, this classic treatise begins with an introduction to the variational principles of mechanics including…
Stealing technology from parallel Earths was supposed to make Declan rich. Instead, it might destroy everything.
Declan is a self-proclaimed interdimensional interloper, travelling to parallel Earths to retrieve futuristic cutting-edge technology for his employer. It's profitable work, and he doesn't ask questions. But when he befriends an amazing humanoid robot,…
I am a physics professor with a passion for teaching. When I was a graduate student, I took required courses in classical mechanics, classical electrodynamics, quantum mechanics, and statistical mechanics. Some of the textbooks assigned by my professors were good; some were not so good. In every case, it was extremely helpful to read what other authors had to say about these foundational subjects. Four of the five books I recommend below are my personal favorites among these serious physics books. My fifth book choice is less serious and does not teach physics, but it will improve your graduate student experience nonetheless.
The yellow Dover paperback edition of this book was the source for more than a few of the quantitative deductions and qualitative arguments which appear in my own textbook on the subject. I admire the pedagogy of Eyges’ book and he is exceptionally lucid in his explanations of physics. The main text assumes you are familiar with delta functions, vector calculus, and the orthogonal functions of mathematical physics, but if you are not, there are well-written appendices devoted to each one. Eyges knows that there is more to electrostatics and magnetostatics than potential theory and his discussions of multipole expansions, time-harmonic radiation and wave propagation inside and outside of matter are very insightful. This little gem belongs by your side when you study classical electrodynamics.
The Classical Electromagnetic Field emphasizes physics first, then mathematics. This and the fact that lucid exposition of theory receives priority over subsequent manipulation marks the book unusual, not to say unique, among field physics texts for advanced undergraduates and graduate students. Long experience of and dissatisfaction with existing texts used in teaching electromagnetic theory at MIT prompted the author to clarify his own approach, resulting in this book. Dr. Eyges is now a Senior Research Physicist at the Rome Air Development Center, Hanscom Air Force Base. Electromagnetic theory is basic to classical and relativistic physics at every level. This text…
I have taught undergraduate and PhD students physics and biophysics for 36 years, and I never get tired of it. I always look for hot new topics and everyday things that we all see but rarely notice as interesting. I also look for “how could anything like that possibly happen at all?”-type questions and the eureka moment when some idea from physics or math pries off the lid, making a seemingly insoluble problem easy. Finally, I look for the skills and frameworks that will open the most doors to students in their future work.
This book will help you develop your own good ideas because the author respects you too much to give a jumble of just-so stories wrapped in glib human interest. Instead, he explains, often with brilliant metaphors from everyday experience. I especially liked the chapters on embryos, organs, the microbiome, and scaling, which are particularly fresh, insightful, and beautifully clear.
Also, unlike so many popularizations, this one is full of graceful but precise illustrations that pull you in and actually clarify key points—not just eye candy. This book will help you have your own ideas by interconnecting physics and biology ideas that are hardly ever mentioned in the same breath.
A biophysicist reveals the hidden unity behind nature's breathtaking complexity
The form and function of a sprinting cheetah are quite unlike those of a rooted tree. A human being is very different from a bacterium or a zebra. The living world is a realm of dazzling variety, yet a shared set of physical principles shapes the forms and behaviors of every creature in it. So Simple a Beginning shows how the emerging new science of biophysics is transforming our understanding of life on Earth and enabling potentially lifesaving but controversial technologies such as gene editing, artificial organ growth, and ecosystem…
I’ve been teaching physics applied to biology for decades. When working at the National Institutes of Health, I realized that most biologists don’t know physics. While I appreciate the complexity that evolution generates, I find the simplicity and generality of physics in explaining life to be amazing and captivating. When I taught biological physics to undergraduates at Oakland University, I strived to find elementary “toy” models that the students could analyze and that provided valuable insight. The books on this list all adopt a similar point of view: physics provides unity to the diversity of life.
Diffusion is rarely taught in physics classes, yet it’s so important for biology.
I love Howard Berg’s first sentence: “Biology is wet and dynamic.” Few authors can make mathematics so engaging and meaningful.
This book is one of those little books that have a big impact. Diffusion is most important at small scales, so get ready to enter the fascinating realm of swimming bacteria and ions moving across cell membranes.
This book is a lucid, straightforward introduction to the concepts and techniques of statistical physics that students of biology, biochemistry, and biophysics must know. It provides a sound basis for understanding random motions of molecules, subcellular particles, or cells, or of processes that depend on such motion or are markedly affected by it. Readers do not need to understand thermodynamics in order to acquire a knowledge of the physics involved in diffusion, sedimentation, electrophoresis, chromatography, and cell motility--subjects that become lively and immediate when the author discusses them in terms of random walks of individual particles.
Nature writer Sharman Apt Russell tells stories of her experiences tracking wildlife—mostly mammals, from mountain lions to pocket mice—near her home in New Mexico, with lessons that hold true across North America. She guides readers through the basics of identifying tracks and signs, revealing a landscape filled with the marks…
My undergraduate physics textbook asked, “What is an electric field? Is it something real, or is it merely a name for a factor in an equation which has to be multiplied by something else to give the numerical value of the force we measure in an experiment?” Here, I thought, is a good question! But the textbook said that since electromagnetic theory “works, it doesn’t make any difference" what an electric field is! Then it said, "That is not a frivolous answer, but a serious one.” I felt ashamed. But my physics teacher helpfully suggested that I “speak to the philosophers.” I am very pleased that I decided to become one!
When a world-class philosopher of physics is also a spectacularly gifted writer, you have the makings of an extraordinary book. This book offers a comprehensive introduction to various interpretations of quantum mechanics, while Maudlin's companion volume on the philosophy of space and time is equally highly recommended. Maudlin is a (very) opinionated guide, which makes these books even more valuable (and enjoyable to read). I especially enjoy Maudlin’s refusal to tolerate any of the nonsense that one often finds in quantum mechanics textbooks that depict the “Copenhagen interpretation” of quantum mechanics as indeed a genuine interpretation of quantum mechanics. Rather, as Maudlin forthrightly says, the “Copenhagen interpretation” amounts to a failure to offer any interpretation at all of quantum mechanics. Instead, it treats quantum mechanics merely as a device for predicting the chances of our making various observations.
A sophisticated and original introduction to the philosophy of quantum mechanics from one of the world's leading philosophers of physics
In this book, Tim Maudlin, one of the world's leading philosophers of physics, offers a sophisticated, original introduction to the philosophy of quantum mechanics. The briefest, clearest, and most refined account of his influential approach to the subject, the book will be invaluable to all students of philosophy and physics.
Quantum mechanics holds a unique place in the history of physics. It has produced the most accurate predictions of any scientific theory, but, more astonishing, there has never been any…
I got hooked on superheroes from a very early age. My mom grew up in the Golden Age of comics and loved superheroes. She'd bring home a random assortment of adventures—Batman, Iron Man, Flash, Avengers, Justice League, Iron Fist, Captain America. I was especially keen on the martial arts mayhem so many could bring to bear. That got me started (and I've never stopped since) in martial arts as a teen and took me into a career in science. I bring my own interest, my knowledge of martial arts, and my extensive career and training as a sensorimotor neuroscientist as I explore the science of human achievement through the lens of comic book superheroes.
I love learning cool and niche nerdy science stuff. James Kakalios unpacks fundamental physics and the fun of superheroes in a crazy solid read.
Trust me, you need to know how many cheeseburgers the Flash would need to eat in order for his metabolism to power his runs around the Earth. Why Gwen Stacy’s death wasn’t Spider-Man’s fault and more. Also how high Superman could really jump, how Iron Man's suit would really work and more.
C'mon. These are fundamental truths of modern civilization and they are all laid bare in this fun and engaging foray into physics!
A complete update to the hit book on the real physics at work in comic books, featuring more heroes, more villains, and more science
Since 2001, James Kakalios has taught "Everything I Needed to Know About Physics I Learned from Reading Comic Books," a hugely popular university course that generated coast-to-coast media attention for its unique method of explaining complex physics concepts through comics. With The Physics of Superheroes, named one of the best science books of 2005 by Discover, he introduced his colorful approach to an even wider audience. Now Kakalios presents a totally updated, expanded edition that features…
I’m a research physicist working in fusion energy and astrophysics. To explain our work, I’ve had to overcome the misconceptions about science that are widespread in the media and among the general population. These books are the best ones I know to correct the mystification of science, especially of topics like quantum mechanics, time, consciousness, and cosmology.
Gamow, one of the greatest popularizers of science and a leading nuclear researcher, clearly describes for non-scientific audiences the drama of the early evolution of quantum theory.
For those who think, based on current popularization, that quantum mechanics is akin to mysticism, this book shows how the quantum debates evolved in real life. Gamow, unlike current popularizers, does not assume that the debates have been resolved in favor of some nonsensical obscurantism.
"Dr. Gamow, physicist and gifted writer, has sketched an intriguing portrait of the scientists and clashing ideas that made the quantum revolution." — Christian Science Monitor In 1900, German physicist Max Planck postulated that light, or radiant energy, can exist only in the form of discrete packages or quanta. This profound insight, along with Einstein's equally momentous theories of relativity, completely revolutionized man's view of matter, energy, and the nature of physics itself. In this lucid layman's introduction to quantum theory, an eminent physicist and noted popularizer of science traces the development of quantum theory from the turn of the…
The Bridge provides a compassionate and well researched window into the worlds of linear and circular thinking. A core pattern to the inner workings of these two thinking styles is revealed, and most importantly, insight into how to cross the distance between them. Some fascinating features emerged such as, circular…
I am a writer and lecturer who is irresistibly drawn to the spiritual and paranormal, but whose academic qualifications are in maths and science. So, I have struggled to find my niche in life: a belief in God and Spirit, a passion for the ‘paranormal,’ and an attraction to the scientific – subjects whose advocates attack one another without compunction. Then, I watched the film What the Bleep Do We Know? and found the communion of spirit and science that had eluded me for so long. Thus, I have a new passion: quantum physics, consciousness, and the creation of reality – which means, for me, the Universe is truly full of magic.
I was so impressed by What the Bleep… that
I wanted to learn more, so turned to one of its contributors: theoretical physicist,
Fred Alan Wolf. In Taking the Quantum Leap, the quirky Dr. Wolf waltzed
me through the history of physics, until I arrived (breathless with
anticipation!) at the biggie: the ‘new science’ of the 20th century;
the science that practically threw the scientific community into turmoil. Dr. Wolf not only linked this plethora of knowledge to consciousness, but also equipped
me, as a layperson, with the mental tools required to indulge in some deep scientific,
philosophical, and spiritual discourse. Without a doubt, casually throwing his
subject into conversation leaves me looking very impressive intellectually. Only
problem: no one invites me to parties anymore….
This book entertainingly traces the history of physics from the observations of the earlyGreeks through the discoveries of Galileo and Newton to the dazzling theories of such scientists as Planck, Einstein, Bohr, and Bohm. This humanized view of science opens up the mind-stretching visions of how quantum mechanics, God, human thought, and will are related, and provides profound implications for our understanding of the nature of reality and our relationship to the cosmos.
