Here are 100 books that The Five Ages of the Universe fans have personally recommended if you like
The Five Ages of the 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…
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…
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.
In the 1950s it was discovered that the cosmos was broken, a thing we boringly call parity violation. Physicists were shocked as they realized that the universe was not as perfect and symmetrical as they assumed. In his wonderful book, Gardner explores the meaning of symmetry and asymmetry in nature, from the fact that life prefers molecules with a particular twist, to the startling revelation that our universe seen in a mirror is not our universe. Whilst physicists have made their peace with a fundamentally broken universe, for the uninitiated the discovery is still disturbing.
"What makes Gardner so appealing is his ease in exploring deep ideas . . . and making them accessible to the interested but nontechnical reader. This is a special talent and no one has ever displayed it quite as well as he does." — Los Angeles Times "Absorbing; enlightening; lucid; witty; inventive. An exemplar of science writing at its very best." — American Mathematical Monthly A substantial revision of Martin Gardner's earlier well-known work on mirror symmetry and asymmetry, The New Ambidextrous Universe takes readers on an extraordinary journey. With Gardner’s guidance, they explore the two fundamental scientific discoveries of…
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…
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…
My passionate scientific interest in cosmology began several decades ago as a Stanford student while moon-lighting as a cloud chamber photo scanner at the Stanford Linear Accelerator Center (SLAC). An initial interest in particle physics merged with an interest in cosmology because the Big Bang theory is about both. Developing a unique cosmology model and collaborating with other cosmologists around the world was a natural extension. Following numerous peer-reviewed scientific publications, our book summarizing them was one, as well. Taking a passionate interest in anything and sharing it with others is an important first step!
I love Stephan Hawking’s A Brief History of Time because it was the first book that inspired me to become a cosmologist. It is a terrific overview of the science behind the modern belief in the Big Bang and what has followed.
It is told with Hawking’s wry sense of humor and unique ability to make complex concepts understandable to the layperson and budding scientist, which I was at the time. It is a fantastic start for my readers of all persuasions.
Was there a beginning of time? Could time run backwards? Is the universe infinite or does it have boundaries? These are just some of the questions considered in an internationally acclaimed masterpiece by one of the world's greatest thinkers. It begins by reviewing the great theories of the cosmos from Newton to Einstein, before delving into the secrets which still lie at the heart of space and time, from the Big Bang to black holes, via spiral galaxies and strong theory. To this day A Brief History of Time remains a staple of the scientific canon, and its succinct and…
My twenty books have won top awards for lifetime scholarship in American studies, science fiction, prison literature, the Vietnam war, and marine ecology. My writing is just part of my six decades as an activist for peace and justice, which made me a major target of the FBI’s operation COINTELPRO and led Stanford to fire me from my tenured professorship. I then taught for 40 years at Rutgers University in Newark as The John Cotton Dana Professor of English and American Studies.
No other book has influenced me so deeply. Arthur C. Clarke wrote it is "probably the most powerful work of imagination ever written." As I now reread Star Maker, published in 1937 when I was three years old, I still find passages so profound that they send my mind into orbit. The book takes us through time and space to a future when that entire conscious cosmos yearns to meet its creator. It ends with a prophetic awareness that “the struggle of our age was brewing” and the hope that our species can make it “before the ultimate darkness.”
This bold exploration of the cosmos ventures into intelligent star clusters and mingles among alien races for a memorable vision of infinity. Cited as a key influence by science-fiction masters such as Doris Lessing, this classic has left its mark not only in modern literature but also in the fields of social anthropology and philosophy. Olaf Stapledon's 1937 successor to Last and First Men offers another entrancing speculative history of the future. Its narrator, a contemporary Earthman, joins a community of explorers who travel to the farthest reaches of the universe, seeking traces of intelligence. Along the way, they encounter…
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…
As a child, I felt profoundly dissatisfied by the pat and cardboard cutout explanations that some teachers offered for life and the universe: there had to be more! I decided to go into science. The explanatory power of science is 'next level,' to use a contemporary phrase, and unless and until we explore it, we'll miss the beauty and sheer wonder of the universe. Neither should we overly specialize: science is not compartmentalized, but vastly different fields of science feed into and reinforce one another. Popular science has an essential role to play: irrespective of how arcane hard science may appear to be, its story can always be told in everyday words.
This often startling book provides a tour d'horizon of unsettled questions in modern physical science and, most importantly, of the intriguing directions the answers could take. It should inspire many in the rising generations of students to take the baton from their elders and seek a career in science at the edges of human understanding. A book I so wish had already been around when I began studying physics.
Tom Siegfried is a distinguished science journalist.
Scientists studying the universe find strange things in two places?out in space and in their heads. This is the story of how the most imaginative physicists of our time perceive strange features of the universe in advance of the actual discoveries.
It is almost a given that physics and cosmology present us with some of the grandest mysteries of all. What weightier questions to ponder than, "How does the universe work?" or "What is the universe made of?" There are any number of bizarre phenomena that could provide clues or even answers to these queries. The strangeness ranges from unusual…
I’ve been fascinated by the universe since childhood – ever since my parents took me to the countryside in rural Nova Scotia, where the stars shone with wondrous intensity. At first, I borrowed books about space and the universe from our local library for fun; now, as a full-time science writer, I read these books to stay informed about the latest ideas shaping our understanding of the cosmos. (I also read them in order to review them on BookLab, a podcast I host together with science writer Amanda Gefter.) I hope you enjoy the books on this list as much as I have!
This book covers a dizzying array of human thought: Greene’s trademark is physics, of course – but in this wildly ambitious work, the Columbia University physicist also dives into evolution, the origins of human culture, the origins of art and music and religion – even the puzzle of consciousness and the paradox of free will. He tackles the deepest of questions – including the problem of finding “meaning” in a universe governed only by the laws of physics. Be prepared to go slow. Your brain will get a workout – but it will be worth every minute of your time.
From the world-renowned physicist and bestselling author of The Elegant Universe and The Fabric of the Cosmos, a captivating exploration of deep time and humanity's search for purpose
In both time and space, the cosmos is astoundingly vast, and yet is governed by simple, elegant, universal mathematical laws.
On this cosmic timeline, our human era is spectacular but fleeting. Someday, we know, we will all die. And, we know, so too will the universe itself.
Until the End of Time is Brian Greene's breathtaking new exploration of the cosmos and our quest to understand it. Greene takes us on a…
I was caught by the astronomy virus when I was 15 years old and had my first view of Saturn through a telescope. Ever since, I’ve enjoyed writing about everything cosmic for a wide variety of audiences. Cosmology is one of my favorite topics, it’s really the most enigmatic scientific discipline. Who knows, someday, a young, brilliant 21st-century genius will find the solution to all those riddles by formulating a whole new view of the birth and evolution of the universe. That’s my secret hope.
This is my favorite book about the discovery of dark energy—the mysterious stuff that is currently speeding up the expansion of the universe.
It all started in 1998 when cosmologists presented their evidence that the expansion of the universe is accelerating. I was completely stunned and puzzled. I already knew that most of the mass in the universe is in the form of mysterious dark matter, but now I had to acknowledge that the cosmos also contains a large amount of equally puzzling dark energy.
Richard Panek’s book helped me to get to grips with this new reality: the people, planets, stars, and galaxies that we know of constitute just a few percent of everything there is. Panek is a skilled writer; I thoroughly enjoyed how his book not only describes the science but also portrays the scientists.
“Fascinating . . . One of the most important stories in the history of science.”— Washington Post
In recent years, a handful of scientists has been racing to explain a disturbing aspect of our universe: only 4 percent of it consists of the matter that makes up you, me, and every star and planet. The rest is completely unknown. Richard Panek tells the dramatic story of how scientists reached this cosmos-shattering conclusion. In vivid detail, he narrates the quest to find the “dark” matter and an even more bizarre substance called dark energy that make up 96 percent of the…
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…
In school, I wasn’t fond of physics. Most of my education focused on the history of human civilization and culture. I rediscovered physics partly thanks to the books mentioned here—and the strangeness of quanta. My studies, exposure to Tao and Zen philosophies, and exploration of physics have given me a unique perspective and awareness: humanity is merely a tiny particle in the universe, neither central nor the king of all creation. Nothing new, of course—Buddha, Heraclitus, and Shakespeare all knew it well.
What impressed me the most was the idea that our reality could be a mathematical structure. This book made me appreciate physics—which I hated in school—and view reality from a different perspective. It inspired my imagination, and although it's a nonfiction, popular science book, it was a great read that sometimes left me with bated breath. In a strange way, the ideas reminded me of Zen philosophy and Taoist qi energy, as if astrophysics were proving these ancient intuitions, which I like to call 'forgotten knowledge.'
Nature, said Galileo, is 'a book written in the language of mathematics'. But why should this be? How can mathematics be at the heart of our universe?
The great Hungarian physicist and Nobel laureate Eugene Wigner stressed that this 'unreasonable effectiveness' of mathematics at describing the world was a mystery demanding explanation. Here, Max Tegmark, one of the most original cosmologists at work today, takes us on an astonishing journey to solve that mystery.
Part-history of the cosmos, part-intellectual adventure, Our Mathematical Universe travels from the Big Bang to the distant future via parallel worlds, across every possible scale -…
