Here are 10 books that Massive fans have personally recommended if you like
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Don Lincoln is both a research scientist and a masterful science communicator. On the science side, he participated in the discovery of both the top quark and the Higgs boson. On the communicator side, he has written books, made hundreds of YouTube videos, and written for such visible venues as Scientific American and CNN. He has both the scientific chops and writer expertise to tell an exciting story about why the universe is the way it is.
This book is an extraordinary romp through the discoveries in particle physics during its formative years, from the electron and x-rays, through the muon, antimatter, and the dizzying particle zoo of the 1950s and 1960s. The book tells a lot of history that books focused on science simply gloss over. It’s a fun and interesting read and you will have a much better appreciation of how scientists learned what they have about the subatomic world.
The Second Creation is a dramatic--and human--chronicle of scientific investigators at the last frontier of knowledge. Robert Crease and Charles Mann take the reader on a fascinating journey in search of ""unification"" (a description of how matter behaves that can apply equally to everything) with brilliant scientists such as Niels Bohr, Max Planck, Albert Einstein, Erwin Schroedinger, Richard Feynman, Murray Gell-Mann, Sheldon Glashow, Steven Weinberg, and many others. They provide the definitive and highly entertaining story of the development of modern physics, and the human story of the physicists who set out to find the ""theory of everything."" The Second…
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…
Don Lincoln is both a research scientist and a masterful science communicator. On the science side, he participated in the discovery of both the top quark and the Higgs boson. On the communicator side, he has written books, made hundreds of YouTube videos, and written for such visible venues as Scientific American and CNN. He has both the scientific chops and writer expertise to tell an exciting story about why the universe is the way it is.
It is perhaps unfair to pick this book, as it is one I wrote, but it really is an unparalled book on the subject of the Large Hadron Collider (or LHC), currently the most powerful particle accelerator on the planet. The book contains some physics and technical information on the LHC and the detectors arrayed around it. It tells the stories of the startup, including the catastrophic damage that took two years to repair, and the accelerator’s triumphant return to operations. It tells insider tales of the assembly of the detectors and also gives an insider’s view of the discovery of the Higgs boson. No other book gives the reader such an intimate window seat to see how this amazing technical leviathan came into being.
An insider's history of the world's largest particle accelerator, the Large Hadron Collider: why it was built, how it works, and the importance of what it has revealed.
Since 2008 scientists have conducted experiments in a hyperenergized, 17-mile supercollider beneath the border of France and Switzerland. The Large Hadron Collider (or what scientists call "the LHC") is one of the wonders of the modern world-a highly sophisticated scientific instrument designed to re-create in miniature the conditions of the universe as they existed in the microseconds following the big bang. Among many notable LHC discoveries, one led to the 2013 Nobel…
Don Lincoln is both a research scientist and a masterful science communicator. On the science side, he participated in the discovery of both the top quark and the Higgs boson. On the communicator side, he has written books, made hundreds of YouTube videos, and written for such visible venues as Scientific American and CNN. He has both the scientific chops and writer expertise to tell an exciting story about why the universe is the way it is.
While scientists know a great deal about the matter around us, it turns out that ordinary matter is a mere 5% of the matter and energy of the universe. A full 95% is of an unknown type. A substance called dark matter makes up 25% of the energy budget of the universe, while dark energy makes up the remaining 70%. This book focuses on the unknown 95% of the universe. No person will understand the rules that govern the universe, without a thorough understanding of these as-yet-undiscovered substances.
'Clear and compact ... It's hard to fault as a brief, easily digestible introduction to some of the biggest questions in the Universe' Giles Sparrow, BBC Four's The Sky at Night, Best astronomy and space books of 2019: 5/5
All the matter and light we can see in the universe makes up a trivial 5 per cent of everything. The rest is hidden. This could be the biggest puzzle that science has ever faced.
Since the 1970s, astronomers have been aware that galaxies have far too little matter in them to account for the way they spin around: they should…
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…
Don Lincoln is both a research scientist and a masterful science communicator. On the science side, he participated in the discovery of both the top quark and the Higgs boson. On the communicator side, he has written books, made hundreds of YouTube videos, and written for such visible venues as Scientific American and CNN. He has both the scientific chops and writer expertise to tell an exciting story about why the universe is the way it is.
If one sets out to understand the universe, one thing one needs to do is understand the laws and rules that govern the matter and energy that makes up the cosmos. The second thing one needs to understand is how it came into existence. In this book, Dan Hooper describes what we know about the first few minutes. Hooper is a theoretical cosmologist at Fermilab, America’s flagship particle physics laboratory. He’s also an excellent author, with a great narrative style. If you want to understand how the Big Bang banged, this is the book for you.
A new look at the first few seconds after the Big Bang-and how research into these moments continues to revolutionize our understanding of our universe
Scientists in the past few decades have made crucial discoveries about how our cosmos evolved over the past 13.8 billion years. But there remains a critical gap in our knowledge: we still know very little about what happened in the first seconds after the Big Bang. At the Edge of Time focuses on what we have recently learned and are still striving to understand about this most essential and mysterious period of time at the…
Since my first college course in quantum physics, I have been fascinated with this enigmatic, infinitely interesting theory. It's our most fundamental description of the universe, it's been found to be unerringly accurate, yet it's quite subtle to interpret. Even more intriguingly, "nobody really understands quantum physics" (as Richard Feynman put it). For example, the theory's central concept, the wave function, is interpreted radically differently by different physicists. I have always yearned to grasp, at least to my own satisfaction, a comprehensive understanding of this theory. Since retirement 23 years ago, I have pursued this passion nearly full-time and found some answers, leading to several technical papers and a popular book.
Unlike the other books on my list, Carroll's book focuses on quantum physics at the very high energies attained in experimental facilities such as the Large Hadron Collider near Geneva, Switzerland. The book was published in 2012, the year LHC scientists announced the momentous discovery of the particle whose universe-filling quantum field causes other particles to acquire a non-zero mass. One reason for my enthusiasm about this book is Carroll's view that the universe is made of "fields" such as the electromagnetic field whose vibrations (or "excitations") are particles such as the proton, electron, and atom. Carroll is an experienced science writer and a theoretical physicist at the California Institute of Technology.
Winner of the Royal Society Winton Prize for Science Books
A Best Science Book of the Year for the Guardian, Financial Times, and New Scientist
It was the universe's most elusive particle, the linchpin for everything scientists dreamed up to explain how physics works. It had to be found. But projects as big as CERN's Large Hadron Collider don't happen without incredible risks - or occasional skulduggery. In the definitive account of the greatest science story of our time, acclaimed physicist Sean Carroll reveals the insights, rivalry, and wonder that fuelled the Higgs discovery, and takes us on a riveting…
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…
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 professional, scientific researcher in astrophysics and philosopher, I have been observing many unfair situations in science: hard-working, talented scientists with bright and challenging ideas who get no attention and bureaucrats or administrators of science (I call them “astropolitics” within my field of research) who have no talent, have neither time nor interest to think about science, and however are visible as the most eminent scientists of our time.
I learned a lot from this book, especially about areas of physics far from my field of research. It also contains many anecdotes and affairs related to closer areas within astrophysics. The descriptions of string theory research and other fields within physics seem to me similar to descriptions of a mafia or a sect.
After reading this book, I was under the impression that physics is declining and that we cannot trust much of the news about fantastic discoveries nowadays.
The recently celebrated discovery of the Higgs boson has captivated the public's imagination with the promise that it can explain the origins of everything in the universe. It's no wonder that the media refers to it grandly as the "God particle." Yet behind closed doors, physicists are admitting that there is much more to this story, and even years of gunning the Large Hadron Collider and herculean number crunching may still not lead to a deep understanding of the laws of nature. In this fascinating and eye-opening account, theoretical physicist Alexander Unzicker and science writer Sheilla Jones offer a polemic.…
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.…
In my everyday world of responsibilities, I’m a writer, retired veterinarian, and freelance English editor for academic writing. But in my inner world of curiosity and obsessions, I’m forever a child with a profound longing to understand what the world is and how it works. Always searching on behalf of this forever child, I’ve read many a dull book about science, history, and writing. Despite having fascinating content, authors often flatten these subjects into featureless recitations. Happily, I’ve also found authors who express enthusiasm, expertise, or concern for their topic in prose that is as interesting in voice as it is in content.
When I wanted to learn more about particles and particle physics, I found the number of books on the market overwhelming. But here’s a familiar name: Isaac Asimov. The cover looks like a recurring fever dream from my childhood, but the content is real and solid.
I read and re-read because it helped me understand atomic physics. And because it’s Asimov, who somehow manages to turn the periodic table into prose poetry.
“Amazing… If you’ve been searching for a basic text on how the atom works, this is it.” —Booklist
“A masterpiece.”—Omni
The legendary Isaac Asimov starts what is perhaps the most fascinating of all his books with a simple query: how finely can a piece of matter be divided? But like many simple questions, this one leads us on a far-flung quest for a final answer, a search that becomes a series of beautifully structured building blocks of knowledge.
It begins with the earliest speculations and investigations by the Greeks and Romans, and then, step by step and century by century,…
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…
The world around us is an amazing and beautiful place and for me science adds another layer of appreciation. I am a Professor of Earth System Science at University College London - which means I am lucky enough to research climate change in the past, the present, and the future. I study everything from early human evolution in Africa to the future impacts of anthropogenic climate change. I have published over 190 papers in top science journals. I have written 10 books, over 100 popular articles and I regularly appear on radio and television. My blogs on the 'Conversation' have been read over 5.5 million times and you might want to check them out!
I love this book. Rowan asks a very simple question, if you had a trillion dollars how could you make the world a better place? And the trillion dollars is not really that much money. It is the amount of taxpayers' money that Governments give to fossil fuel companies each year in the form of subsidies.
It is one-hundredth of what the world makes every single year. So with a trillion dollars could you cure all diseases, go carbon zero, save life on Earth, set up on new planets, find aliens, or even create artificial life with the intelligence and creativity of a human?
Well I could tell you the answers but that would spoil your fun of reading this excellent thought-provoking book.
If you had a trillion dollars and a year to spend it for the good of the world and the advancement of science, what would you do? It's an unimaginably large sum, yet it's only around one per cent of world GDP, and about the valuation of Google, Microsoft or Amazon. It's a much smaller sum than the world found to bail out its banks in 2008 or deal with Covid-19.
But what could you achieve with $1 trillion?
You could solve the problem of the pandemic, for one, and eradicate malaria, and maybe cure all disease. You could end…
