Here are 20 books that The New Ambidextrous Universe fans have personally recommended if you like
The New Ambidextrous Universe.
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With a PhD in astrophysics, cosmology is my day job. My research focuses upon the dark-side, the dark matter and energy that have shaped the evolution of the universe. My scientific journey began long ago with “How and Why Wonder Books”, from dinosaurs and evolution to astronomy and space exploration. I have always devoured tales about the fundamental universe, not only the immensity of the cosmos around us, but also the lives of the tiny bits-and-pieces from which matter is made. I still read a lot of popular science, especially on the history of life on Earth, and the future impact of Artificial Intelligence.
Cosmology encompasses our modern understanding of the universe, but what a strange universe it is, born in a fiery Big Bang, dominated by the dark-side, and expanding into a never-ending future. In his classic book, Harrison lays out the science of cosmology, exploring the nature of the Big Bang, the meaning of expansion, and our place in a seemingly infinite cosmos. With a lucid style, I love Harrison’s tour of modern cosmology. It is not just required reading for the cosmologist in training but is also essential for anyone wondering just how our universe works.
Cosmology: The Science of the Universe is an introduction to past and present cosmological theory. For much of the world's history, cosmological thought was formulated in religious or philosophical language and was thus theological or metaphysical in nature. However, cosmological speculation and theory has now become a science in which the empirical discoveries of the astronomer, theoretical physicist, and biologist are woven into intricate models that attempt to account for the universe as a whole. Professor Harrison draws on the discoveries and speculations of these scientists to provide a comprehensive survey of man's current understanding of the universe and its…
The Victorian mansion, Evenmere, is the mechanism that runs the universe.
The lamps must be lit, or the stars die. The clocks must be wound, or Time ceases. The Balance between Order and Chaos must be preserved, or Existence crumbles.
Appointed the Steward of Evenmere, Carter Anderson must learn the…
When I was a teenager, my dad decided he wanted to make an astronomical telescope, so he ground and polished the mirror for an 8-inch reflecting telescope. Then he also helped me make one in our basement. I ended up with something I’d made that showed me the pearly rings of Saturn and the wispy details of the Andromeda nebula! I was hooked and kept my interest in astronomy alive through years of math and physics courses.
While now somewhat dated, this book remains a masterpiece of science writing for the educated public. I love and recommend it because it never talks down to the reader. The book treats all of cosmology briefly but concentrates on the earliest moments of the extraordinary history of our cosmos.
In the fiery first few minutes of time, when the entire Universe was hotter than the center of the Sun, the helium that now fills party balloons was forged, and the structure of the current Universe was laid down. Weinberg presents the physics of the early Universe with care and precision.
A Nobel Prize-winning physicist explains what happened at the very beginning of the universe, and how we know, in this popular science classic.
Our universe has been growing for nearly 14 billion years. But almost everything about it, from the elements that forged stars, planets, and lifeforms, to the fundamental forces of physics, can be traced back to what happened in just the first three minutes of its life.
In this book, Nobel Laureate Steven Weinberg describes in wonderful detail what happened in these first three minutes. It is an exhilarating journey that begins with the Planck Epoch - the…
With a PhD in astrophysics, cosmology is my day job. My research focuses upon the dark-side, the dark matter and energy that have shaped the evolution of the universe. My scientific journey began long ago with “How and Why Wonder Books”, from dinosaurs and evolution to astronomy and space exploration. I have always devoured tales about the fundamental universe, not only the immensity of the cosmos around us, but also the lives of the tiny bits-and-pieces from which matter is made. I still read a lot of popular science, especially on the history of life on Earth, and the future impact of Artificial Intelligence.
What does tomorrow hold for the universe? Through this book, the authors step into the far future of the cosmos, starting from our universe today, lit with stars and galaxies, to a hundred trillion years hence when the last star has died. But at this point, the story has only just begun, and the authors continue to the distant time when matter will eventually melt, and black holes will evaporate into the background. Whilst some of the physics is speculative this is an exciting ride which reminds us, like everything, the universe is slowly and steadily winding down.
THE FIVE AGES OF THE UNIVERSE is a riveting biography of the universe which describes for the first time five distinct eras that Adams and Laughlin themselves defined as a result of their own research. From the first gasp of inflation that caused the Big Bang, through the birth of stars, to the fading of all light, THE FIVE AGES OF THE UNIVERSE describes the death of our own sun, tremendous fiery supernovae explosions, dramatic collisions of galaxies, proton decay, the evaporation of black holes and the possibility of communications when there are no planets or stars or even black…
The Guardian of the Palace is the first novel in a modern fantasy series set in a New York City where magic is real—but hidden, suppressed, and dangerous when exposed.
When an ancient magic begins to leak into the world, a small group of unlikely allies is forced to act…
With a PhD in astrophysics, cosmology is my day job. My research focuses upon the dark-side, the dark matter and energy that have shaped the evolution of the universe. My scientific journey began long ago with “How and Why Wonder Books”, from dinosaurs and evolution to astronomy and space exploration. I have always devoured tales about the fundamental universe, not only the immensity of the cosmos around us, but also the lives of the tiny bits-and-pieces from which matter is made. I still read a lot of popular science, especially on the history of life on Earth, and the future impact of Artificial Intelligence.
Modern physics has a problem. It is built on two key theories, Einstein’s general theory of relativity that explains the action of gravity, and quantum mechanics that accounts for the other fundamental forces. But these are incompatible, and physicists have tried to stitch these together for more than a century. Smolin explores the landscape of the leading contenders on the path to quantum gravity, including string theory, M-theory, and loop quantum gravity, highlighting the doors that will be opened when the journey is complete, from revealing the heart of black holes, to understanding where our universe came from. An important lesson is that physics is far from complete, and there is so much more to be discovered.
The Holy Grail of modern physics is the search for a 'quantum gravity' view of the universe that unites Einstein's general relativity with quantum theory. Until recently, these two foundational pillars of modern science have seemed incompatible: relativity deals exclusively with the universe at the large scale (planets, solar systems and galaxies), whereas quantum theory is restricted to the domain of the very small (molecules, atoms, electrons). Here, Lee Smolin provides the first accessible overview of current attempts to reconcile these two theories. Some of these approaches view the world as a hologram; others hold that basic particles must be…
I’m a science journalist, podcaster and opinion columnist for the Bloomberg News Service. I’ve written for the New York Times, Science, Sky and Telescope, Psychology Today, New Scientist and other publications. I studied geophysics at Caltech, where I learned about climate change and the long history of our planet. I wrote about astrophysics and particle physics for Science Magazine before taking a job as a general science reporter for the Philadelphia Inquirer. There, I asked for the chance to write a weekly science column. The editors said they wanted a sex column. I made the best of it, creating a column about sex in the natural world.
A journey into the way particle physics reveals the structure of inner space, told through the dramatic competition between two teams of physicists using the world’s first supercollider at CERN. The goal was to find two theoretical but never detected particles called the W and Z bosons. Jealousy, overbearing personalities, and the rush for glory.
A renowned science writer examines the work being done by high-energy physicists in their quest to understand how the universe began, what it is made of, and where it is headed
My fascination with the Universe led me to become a high-energy physics and astrophysics researcher. I work at CERN (Geneva) working on elementary particles. Over many years, I have written and reviewed numerous scientific articles and served as the editor for two books. I have also reviewed books and co-written a few short popular science pieces. My reading interests encompass not only academic and literary works but also popular science, philosophy, and sociology. Understanding the Universe is difficult. With this collection, I hope to provide you with an authentic introduction to the study of the Universe and its evolution from various perspectives.
I like the main idea promoted in the book that even laws of nature (including general relativity) result from "collective effects," i.e., many-body interactions. This is supported by examples from the material nature of the vacuum of elementary particles to proteins and daily life.
The discovery of the Higgs boson at CERN (after the book was written) already greatly increased our confidence that the vacuum is not empty but a type of matter from which elementary particle properties emerge.
I also like his thoughts on the philosophy of physics from the collective-effects (or non-reductionist) perspective. He claims that for a scientific measurement or even a law to be possible, nature should allow precisely measurable quantities via collective effects.
Why everything we think about fundamental physical laws needs to change, and why the greatest mysteries of physics are not at the ends of the universe but as close as the nearest ice cube or grain of salt Not since Richard Feynman has a Nobel Prize-winning physicist written with as much panache as Robert Laughlin does in this revelatory and essential book. Laughlin proposes nothing less than a new way of understanding fundamental laws of science. In this age of superstring theories and Big-Bang cosmology, we're used to thinking of the unknown as being impossibly distant from our everyday lives.…
Aury and Scott travel to the Finger Lakes in New York’s wine country to get to the bottom of the mysterious happenings at the Songscape Winery. Disturbed furniture and curious noises are one thing, but when a customer winds up dead, it’s time to dig into the details and see…
My fascination with the Universe led me to become a high-energy physics and astrophysics researcher. I work at CERN (Geneva) working on elementary particles. Over many years, I have written and reviewed numerous scientific articles and served as the editor for two books. I have also reviewed books and co-written a few short popular science pieces. My reading interests encompass not only academic and literary works but also popular science, philosophy, and sociology. Understanding the Universe is difficult. With this collection, I hope to provide you with an authentic introduction to the study of the Universe and its evolution from various perspectives.
This book was written to promote the Superconducting Super Collider in the US (that soon after got cancelled by the congress) with a lot of humour. Unlike some popular science books, it doesn’t include any wrong or exaggerated statements about modern science. It tells the story of the search for the "atoms," now called elementary particles, which are the building blocks of the Universe, from ancient Greece to modern times.
Among others, the book describes the then-missing last two particles of the Standard Model, the top quark and the "God" particle — the Higgs boson — and the laboratories (Fermilab and CERN) that eventually discovered them.
Very often in popular physics books speculative physics ideas detached from experiments are promoted. Lederman’s book is quite the opposite, and I really like that.
"What Stephen Hawking did for cosmology, Leon Lederman does for particle physics" (Dallas Morning News) in The God Particle, a funny and fascinating look at the universe from the Nobel Prize–winning physicist.
In this extraordinarily accessible and enormously witty book, the Nobel Prize–winning physicist Leon Lederman guides us on a fascinating tour of the history of particle physics. The book takes us from the Greeks' earliest scientific observations through Einstein and beyond in an inspiring celebration of human curiosity. It ends with the quest for the Higgs boson, nicknamed the God Particle, which scientists hypothesize will help unlock the last…
From the ages of 1-4, my son Finn deeply rooted himself into the detailed world of Richard Scarry. These books could be such slow reads that we only needed two of them for long airplane rides. Through Finn’s love of Scarry books, I began searching for more books that delighted with detail. And when I did not see my family’s bicycle-rich lifestyle reflected in books, I created Cycle City.
Welcome to the future in the city of Mamoko! A list of questions launches readers to discover a story about each seek-and-find character. What is strange about Otto Flash’s new jumper? Why is Amelia squeal so excited? Inventive, cross-sectioned interiors and exteriors, a top-notch, delicious color palette. This book sparks future-curious imaginations. Also in this series: Welcome to Mamoko and The World of Mamoko in the Time of Dragons.
It’s the year 3000 in Mamoko, but what does the future hold? This is the second book in the revolutionary Mamoko series, in which the reader becomes the storyteller, sharing their discoveries as they use their eyes to uncover the cosmos of characters packed into every page!
I grew up intending to become an astronaut. The cosmos always felt within reach of my backyard, from where I could watch the Space Shuttle launch. As I grew up, I began to realize that the space our rockets reached was exceedingly close compared to the rest of the universe. And I became obsessed with what else was out there. I went on to study radio astronomy, fascinated by the parts of the cosmos that our senses can’t detect. After that, I became a science journalist, writing about how space influences Earth and vice versa.
Who doesn’t love to think about how the universe—so big, so old already—will ultimately end? Reading the book encouraged me to look at the universe as its own thing, of which I and all of Earth, were tiny parts, and tiny parts that would end long before the cosmos itself would. Katie Mack explores what five such conclusions might look like, getting everybody a little more comfortable with the idea that every story has an ending, even if we don’t know what this one looks like.
NAMED A BEST BOOK OF THE YEAR BY THE ECONOMIST, OBSERVER, NEW SCIENTIST, BBC FOCUS, INDEPENDENT AND WASHINGTON POST
'Weird science, explained beautifully' - John Scalzi
'A rollicking tour of the wildest physics. . . Like an animated discussion with your favourite quirky and brilliant professor' Leah Crane, New Scientist
From one of the most dynamic rising stars in astrophysics, an eye-opening look at five ways the universe could end, and the mind-blowing lessons each scenario reveals about the most important ideas in cosmology
We know the universe had a beginning. But what happens at the end of the story?…
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 was trained in astronomy and astrophysics, was a staff observer at the Lick and Yerkes Observatories, and always have had a passion for researching and writing the history of modern astrophysics and space astronomy. I hold a PhD in the history of astronomy from the University of Leicester in England, am now a retired museum curator having been a planetarium lecturer, college professor, research associate for the Center for History of Physics at the American Institute of Physics, and guitar teacher in the early 1960s.
A penetrating, creative, and highly accessible exploration of how the incredible images from the Hubble Space Telescope were selected and produced. Most intriguing and revealing is an analysis of the context of these images within the history of frontier landscape art.
The vivid, dramatic images of distant stars and galaxies taken by the Hubble Space Telescope have come to define how we visualize the cosmos. In their immediacy and vibrancy, photographs from the Hubble show what future generations of space travelers might see should they venture beyond our solar system. But their brilliant hues and precise details are not simply products of the telescope's unprecedented orbital location and technologically advanced optical system. Rather, they result from a series of deliberate decisions made by the astronomers who convert raw data from the Hubble into spectacular pictures by assigning colors, adjusting contrast, and…
