Here are 100 books that The Variational Principles of Mechanics fans have personally recommended if you like
The Variational Principles of 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,…
It is April 1st, 2038. Day 60 of China's blockade of the rebel island of Taiwan.
The US government has agreed to provide Taiwan with a weapons system so advanced that it can disrupt the balance of power in the region. But what pilot would be crazy enough to run…
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 learned the basics of statistical mechanics from the first edition of the textbook by R.K. Pathria. But only after studying Kubo did I learn how to apply those ideas to solve problems. Each of his six chapters begins with a concise overview of the theory. Next comes a set of worked examples, followed by an extensive collection of problems and their solutions. Overall, the book offers a remarkable 46 worked examples and 162 problems and solutions. These include all the standard problems and quite a few you will not see elsewhere. Particularly charming are 14 "divertissements” where Kubo discusses Maxwell’s demon, the ergodic theorem, the Gibbs paradox, the H-theorem, Onsager’s reciprocity relations, and other delights.
This book provides a series of concise lectures on the fundamental theories of statistical mechanics, carefully chosen examples and a number of problems with complete solutions.
Modern physics has opened the way for a thorough examination of infra-structure of nature and understanding of the properties of matter from an atomistic point of view. Statistical mechanics is an essential bridge between the laws of nature on a microscopic scale and the macroscopic behaviour of matter. A good training in statistical mechanics thus provides a basis for modern physics and is indispensable to any student in physics, chemistry, biophysics and engineering sciences…
A Duke with rigid opinions, a Lady whose beliefs conflict with his, a long disputed parcel of land, a conniving neighbour, a desperate collaboration, a failure of trust, a love found despite it all.
Alexander Cavendish, Duke of Ravensworth, returned from war to find that his father and brother had…
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 am a professor of quantum physics—the most notoriously complicated science humans have ever invented. While the likes of Albert Einstein commented on how difficult quantum physics is to understand, I disagree! Ever since my mum asked me—back while I was a university student—to explain to her what I was studying, I’ve been on a mission to make quantum physics as widely accessible as possible. Science belongs to us all and we should all have an opportunity to appreciate it!
Are you still here? Good. Because by now you are probably reading to tackle some university-level courses in quantum physics, right? Well, with your background in pop quantum physics all you need to get there is a little more abstraction. So, if you have the stomach for a bit of mathematics, Quantum Mechanics: The Theoretical Minimum by Leonard Susskind is your ticket to the big show! (Don’t say I didn’t warn you about the math, though.)
First he taught you classical mechanics. Now, physicist Leonard Susskind has teamed up with data engineer Art Friedman to present the theory and associated mathematics of the strange world of quantum mechanics.In this follow-up to the New York Times best-selling The Theoretical Minimum , Susskind and Friedman provide a lively introduction to this famously difficult field, which attempts to understand the behaviour of sub-atomic objects through mathematical abstractions. Unlike other popularizations that shy away from quantum mechanics' weirdness, Quantum Mechanics embraces the utter strangeness of quantum logic. The authors offer crystal-clear explanations of the principles of quantum states, uncertainty and…
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…
The Duke's Christmas Redemption
by
Arietta Richmond,
A Duke who has rejected love, a Lady who dreams of a love match, an arranged marriage, a house full of secrets, a most unneighborly neighbor, a plot to destroy reputations, an unexpected love that redeems it all.
Lady Charlotte Wyndham, given in an arranged marriage to a man she…
I am an applied mathematician at Oxford University, and author of the bestseller 1089 and All That, which has now been translated into 13 languages. In 1992 I discovered a strange mathematical theorem – loosely related to the Indian Rope Trick - which eventually featured on BBC television. My books and public lectures are now aimed at bringing mainstream mathematics to the general public in new and exciting ways.
This is a sequel to Alex Bellos's bestseller Alex's Adventures in Numberland, but more focused on applications of mathematics to the real world, especially through physics. Many of these were known to me, particularly when they involved calculus, but I greatly enjoyed Alex's distinctive and novel way of putting across sophisticated ideas, in part by interspersing them with personal interviews with mathematicians of all kinds.
From triangles, rotations and power laws, to fractals, cones and curves, bestselling author Alex Bellos takes you on a journey of mathematical discovery with his signature wit, engaging stories and limitless enthusiasm. As he narrates a series of eye-opening encounters with lively personalities all over the world, Alex demonstrates how numbers have come to be our friends, are fascinating and extremely accessible, and how they have changed our world.
He turns even the dreaded calculus into an easy-to-grasp mathematical exposition, and sifts through over 30,000 survey submissions to reveal the world's favourite number. In Germany, he meets the engineer who…
I believe that knowledge is power. Understanding how something works leads to practical applications. In markets, I believe you should develop your own ideas on how to invest rather than being told. After all, how can you profit if you’re doing what everyone else is doing? Markets are efficient enough to give an opportunity to everyone but advantage to no one, unless you do something different than the crowd. My list is designed to give you information to develop investment strategies based on chaos theory, complexity, and fractals. It is not designed to tell you how to invest.
Readers of this list may be surprised that there are no books by Benoit Mandelbrot, the father of fractals. I found his books fascinating but frustrating. Feder’s book, by contrast, was readable and usable.
This book taught me how to do fractal analysis. While Feder’s book has nothing to do with markets, it has everything to do with applications. While I reuse much of Feder’s methodology in my books, readers will find it useful to see other practical applications of fractal analysis.
This lovely little book will take off and fly on its own power, but the author has asked me to write a few words, and one should not say no to a friend. Specific topics in fractal geometry and its applications have already benefited from several excellent surveys of moderate length, and gossip and preliminary drafts tell us that we shall soon see several monographic treatments of broader topics. For the teacher, however, these surveys and monographs are not enough, and an urgent need for more helpful books has been widely recognized. To write such a book is no easy…
I have worked in scientific research and teaching for over 30 years, and maintained a love of art and music as well, but am saddened when I hear statements, especially from high-school pupils, that ‘there is no room for creativity or imagination in science.’ Like all working scientists, I know that imagination is the most important faculty for a scientist. The Poetry and Music of Science is my project to tease out the creative threads in the scientific process, and also to find the buried pathways that link science with the arts and humanities. The journey of discovery has been full of surprises and delights for me.
Visual representations are not the only pathway to creative acts in art and science, but they are responsible for large territories of creativity – including, and surprisingly, the mathematical. Arthur Miller shows how ‘seeing the unseen’ becomes possible from atoms to the conservation of energy in science, and from modernism to cubism in art. The book itself is as visually striking as its contents and helped me to think through why the visual metaphor – ‘Oh, I see!’ – becomes the standard description of the moment of insight.
Here, distinguished science historian Arthur I. Miller delves into the connections between modern art and modern physics. He takes us on a wide-ranging study to demonstrate that scientists and artists have a common aim: a visual interpretation of both the visible and invisible aspects of nature. Along the way, we encounter the philosophy of mind and language, cognitive science and neurophysiology in our search for the origins and meaning of visual imagery. At a time when the media are overeager to portray science as a godless, dehumanising exercise undermining the very fabric of society, this sixth book by Professor Miller…
This book follows the journey of a writer in search of wisdom as he narrates encounters with 12 distinguished American men over 80, including Paul Volcker, the former head of the Federal Reserve, and Denton Cooley, the world’s most famous heart surgeon.
In these and other intimate conversations, the book…
I am a Research Assistant Professor of Computer Science at Stony Brook University learning/teaching/researching mathematics/algorithms/puzzles. In these fields, I have published a book, published 15+ papers in conferences/journals, been granted a US patent, won two Outstanding Paper Awards, taught 10+ courses in 25+ offerings, and have supervised 90+ master's/bachelor students. I am a puzzle addict involved in this field for 25 years and puzzles are my religion/God. Puzzles are the main form of supreme energy in this universe that can consistently give me infinite peace.
This book is full of beautiful puzzles on a mathematical topic called pursuit evasion. Its author Paul Nahin has written tens of books in physics and mathematics.
Nahin's writing can be described as a captivating reading experience pulling readers into his world like a whirlpool. His appreciation of mathematics, physics, and the people who discover them is unmatchable. It seems like the physics of motion and the mathematics of calculus is inseparable, as can be witnessed in the book.
The calculus used in this book is heavy. Nevertheless, Nahin makes his readers fall in love with this big beast. Almost every puzzle in this book is aesthetically beautiful and gives readers a deep sense of satisfaction. My favorites include Lady in the Lake, and Lion and Man.
We all played tag when we were kids. What most of us don't realize is that this simple chase game is in fact an application of pursuit theory, and that the same principles of games like tag, dodgeball, and hide-and-seek are also at play in military strategy, high-seas chases by the Coast Guard, and even romantic pursuits. In Chases and Escapes, Paul Nahin gives us the first complete history of this fascinating area of mathematics, from its classical analytical beginnings to the present day. Drawing on game theory, geometry, linear algebra, target-tracking algorithms, and much more, Nahin also offers an…
