--- product_id: 27938640 title: "Black Hole: How an Idea Abandoned by Newtonians, Hated by Einstein, and Gambled On by Hawking Became Loved" price: "€ 37.72" currency: EUR in_stock: true reviews_count: 13 url: https://www.desertcart.hr/products/27938640-black-hole-how-an-idea-abandoned-by-newtonians-hated-by store_origin: HR region: Croatia --- # Black Hole: How an Idea Abandoned by Newtonians, Hated by Einstein, and Gambled On by Hawking Became Loved **Price:** € 37.72 **Availability:** ✅ In Stock ## Quick Answers - **What is this?** Black Hole: How an Idea Abandoned by Newtonians, Hated by Einstein, and Gambled On by Hawking Became Loved - **How much does it cost?** € 37.72 with free shipping - **Is it available?** Yes, in stock and ready to ship - **Where can I buy it?** [www.desertcart.hr](https://www.desertcart.hr/products/27938640-black-hole-how-an-idea-abandoned-by-newtonians-hated-by) ## Best For - Customers looking for quality international products ## Why This Product - Free international shipping included - Worldwide delivery with tracking - 15-day hassle-free returns ## Description The contentious history of the idea of the black hole—the most fascinating and bizarre celestial object in the heavens For more than half a century, physicists and astronomers engaged in heated dispute over the possibility of black holes in the universe. The weirdly alien notion of a space-time abyss from which nothing escapes—not even light—seemed to confound all logic. This engrossing book tells the story of the fierce black hole debates and the contributions of Einstein and Hawking and other leading thinkers who completely altered our view of the universe. Renowned science writer Marcia Bartusiak shows how the black hole helped revive Einstein’s greatest achievement, the general theory of relativity, after decades during which it had been pushed into the shadows. Not until astronomers discovered such surprising new phenomena as neutron stars and black holes did the once-sedate universe transform into an Einsteinian cosmos, filled with sources of titanic energy that can be understood only in the light of relativity. This book celebrates the hundredth anniversary of general relativity, uncovers how the black hole really got its name, and recounts the scientists’ frustrating, exhilarating, and at times humorous battles over the acceptance of one of history’s most dazzling ideas. Review: Great History! - This history of the development of the notions and physics of collapsed stars, including black holes, is accurate, very readable (no equations) and thorough. The author’s attention to the players and her excellent writing make it a very enjoyable read for anyone interested in stars. Review: A good overview of the history and science of black holes - Black holes are unusual objects. They are now recognized as some of the most important cosmic laboratories for studying all kinds of physics phenomena, from general relativity to quantum mechanics. And yet as science writer Marcia Bartusiak describes in this book, their road to success has been paved with a lack of interest from their own pioneers and many haphazard detours. Bartusiak traces the conception of the idea of black holes to a Cambridge don named Joh Mitchell who asked whether an object could be so dense that even light would not escape its gravitational pull. This idea lay buried in the scientific literature until the early 20th century when astronomers began asking questions about the constitution of stars. It was a young Indian astrophysicist Subrahmanyan Chandrasekhar who first thought about gravitational collapse on his way to graduate school in England. Bartusiak describes well Chandrasekhar's battles with the old English establishment of astronomers in getting his ideas accepted. He was so frustrated in his endeavors that he switched to studying other topics before he finally got the Nobel Prize for his work decades later. The next actors on the stage were the volatile Fritz Zwicky and the brilliant Lev Landau and Robert Oppenheimer. Landaa and Zwicky laid out the first contours of what's called a neutron star while Oppenheimer was really the first scientist who asked what happens when a star completely collapses to a point, what was later called a singularity. Interestingly both Oppenheimer and Einstein - whose general theory relativity shines in all its glory in black holes - either refused to accept their reality or showed a complete lack of interest in them in their later years. After his pioneering work Oppenheimer never even entertained the subject. The story of black holes is a good instance of scientific revolutionaries turning conservative. As Bartusiak narrates, it fell to a young breed of brilliant scientists led by John Wheeler in the US, Dennis Sciama in the UK and Yakov Zeldovich in the USSR to work out the details of black hole astrophysics. They in turn inspired a whole generation of students like Kip Thorne, Roger Penrose and Stephen Hawking who contributed to the discipline. Bartusiak's book also has a readable account of the experimental discoveries in x-ray and radio astronomy which turned black holes from speculation to reality. As the book makes it clear, the importance of observational astronomy and developments in electronics in the discovery of these wondrous objects cannot be underestimated. The book ends with a brief description of Hawking's work on black holes that led to the proposal of so-called Hawking radiation, energetic radiation engendered by the principles of quantum mechanics that can allow particles to escape from a black hole's surface. I was disappointed that Bartusiak does not pay more attention to this exciting frontier, especially regarding the meld of ideas from information theory and computer science with thermodynamics and quantum mechanics that has been published in the last few years. Overall Bartusiak's volume is a good introduction to the history and physics of black holes. My only concern is that it covers very little information that has not been already documented by other books. Kip Thorne's "Black Holes and Time Warps: Einstein's Outrageous Legacy" remains the standard reference in the field and covers all these discoveries and more much more comprehensively and engagingly, while Pedro Ferreira's "The Perfect Theory" which came out this year treads the same ground of experimental discoveries. This is not a bad book at all but it came out slightly late: if you really want to read one book on black holes I think it should be Thorne's. ## Technical Specifications | Specification | Value | |---------------|-------| | Best Sellers Rank | #2,223,051 in Books ( See Top 100 in Books ) #222 in Astrophysics & Space Science (Books) #1,507 in Astronomy (Books) #3,260 in History & Philosophy of Science (Books) | | Customer Reviews | 4.5 out of 5 stars 316 Reviews | ## Images ![Black Hole: How an Idea Abandoned by Newtonians, Hated by Einstein, and Gambled On by Hawking Became Loved - Image 1](https://m.media-amazon.com/images/I/61g+aBnnFHL.jpg) ## Customer Reviews ### ⭐⭐⭐⭐⭐ Great History! *by A***E on July 20, 2020* This history of the development of the notions and physics of collapsed stars, including black holes, is accurate, very readable (no equations) and thorough. The author’s attention to the players and her excellent writing make it a very enjoyable read for anyone interested in stars. ### ⭐⭐⭐⭐ A good overview of the history and science of black holes *by A***R on April 4, 2015* Black holes are unusual objects. They are now recognized as some of the most important cosmic laboratories for studying all kinds of physics phenomena, from general relativity to quantum mechanics. And yet as science writer Marcia Bartusiak describes in this book, their road to success has been paved with a lack of interest from their own pioneers and many haphazard detours. Bartusiak traces the conception of the idea of black holes to a Cambridge don named Joh Mitchell who asked whether an object could be so dense that even light would not escape its gravitational pull. This idea lay buried in the scientific literature until the early 20th century when astronomers began asking questions about the constitution of stars. It was a young Indian astrophysicist Subrahmanyan Chandrasekhar who first thought about gravitational collapse on his way to graduate school in England. Bartusiak describes well Chandrasekhar's battles with the old English establishment of astronomers in getting his ideas accepted. He was so frustrated in his endeavors that he switched to studying other topics before he finally got the Nobel Prize for his work decades later. The next actors on the stage were the volatile Fritz Zwicky and the brilliant Lev Landau and Robert Oppenheimer. Landaa and Zwicky laid out the first contours of what's called a neutron star while Oppenheimer was really the first scientist who asked what happens when a star completely collapses to a point, what was later called a singularity. Interestingly both Oppenheimer and Einstein - whose general theory relativity shines in all its glory in black holes - either refused to accept their reality or showed a complete lack of interest in them in their later years. After his pioneering work Oppenheimer never even entertained the subject. The story of black holes is a good instance of scientific revolutionaries turning conservative. As Bartusiak narrates, it fell to a young breed of brilliant scientists led by John Wheeler in the US, Dennis Sciama in the UK and Yakov Zeldovich in the USSR to work out the details of black hole astrophysics. They in turn inspired a whole generation of students like Kip Thorne, Roger Penrose and Stephen Hawking who contributed to the discipline. Bartusiak's book also has a readable account of the experimental discoveries in x-ray and radio astronomy which turned black holes from speculation to reality. As the book makes it clear, the importance of observational astronomy and developments in electronics in the discovery of these wondrous objects cannot be underestimated. The book ends with a brief description of Hawking's work on black holes that led to the proposal of so-called Hawking radiation, energetic radiation engendered by the principles of quantum mechanics that can allow particles to escape from a black hole's surface. I was disappointed that Bartusiak does not pay more attention to this exciting frontier, especially regarding the meld of ideas from information theory and computer science with thermodynamics and quantum mechanics that has been published in the last few years. Overall Bartusiak's volume is a good introduction to the history and physics of black holes. My only concern is that it covers very little information that has not been already documented by other books. Kip Thorne's "Black Holes and Time Warps: Einstein's Outrageous Legacy" remains the standard reference in the field and covers all these discoveries and more much more comprehensively and engagingly, while Pedro Ferreira's "The Perfect Theory" which came out this year treads the same ground of experimental discoveries. This is not a bad book at all but it came out slightly late: if you really want to read one book on black holes I think it should be Thorne's. ### ⭐⭐⭐⭐⭐ What Thinking Hard About Gravity Will Do *by A***E on June 19, 2015* It is exciting to look up into the sky and remember that so many of those points of light are actually stars as big as our Sun and that many of them also have planetary systems. They are so far away and yet through the science of astronomy we can learn so much about them. Observation is one of the primary tools of science but it isn’t its only tool. Extrapolation based upon what is already known can lead to some pretty crazy ideas. One those crazy ideas is the title of Marcia Bartusiak’s latest book – BLACK HOLE It was the natural philosopher John Mitchell who first theorized the existence of what became known in the twentieth century as black holes. Building upon the insights on gravity that made Isaac Newton famous, Mitchell asked how light would behave in more and more massive stars. In observing stars in a binary system, Mitchell posited that not only could you detect the obvious tug of the stars on one another but you could also figure out if that tug affects the light being emanated from those stars. “Measure the velocity of a beam of starlight entering a telescope, and voila, you acquire a means of weighing the star.” (13) Then Mitchell went extreme. What is the size a star would need to be to not emit any light? How big would such an object need to be for any light rays it radiates to return to its surface? Bartusiak notes that “this is where the ‘black hole’ possibility arises.” (13) And Mitchell’s insight marks the first steps ever taken into the bizarre world of the black hole. Black holes may be terrible places to go near but I can assure you that BLACK HOLE by Bartusiak is nothing like those light-sucking collapsed stars. But it is a difficult book to put down and you may find yourself reading chapter after chapter after chapter. And since the main text of the book only comprises around one hundred and ninety pages, you may complete the book before you know it! If it weren’t for the fact that I outlined every chapter after I read them I would have completed BLACK HOLE in about two days. BLACK HOLE reads like a narrative, essentially beginning with Mitchell and his scientific predecessors and progressing to the present day with the work of men like Kip Thorne and Stephen Hawking. Perhaps the most interesting sections can be found in chapter four that is titled, “There Should Be a Law of Nature to Prevent a Star from Behaving in This Absurd Way.” In it Bartusiak explains the resistance to black holes from famous scientists like Arthur Eddington. The British scientist had taken to “bullying [Subrahmanyan Chandrasekhar] to protect a fanciful mathematical scheme he had been working on for eighty years” (57) the scheme of which was essentially to keep quantum mechanics and relativity away from one another. This was typical of Eddington, an unfortunate black mark on his illustrious career. You might recall it was Eddington who went on that expedition to demonstrate Einstein’s theory of general relativity correct by photographing the sun during an eclipse. It is unfortunate that such a brilliant man would be so resistant to the scientific progress men like Chandra were making. If you are looking for a technical work on black holes, this book is not it. Nor should we expect it to be. Instead, this book gives us history and in so doing it reveals how science works – warts and all. Bartusiak has given us a glimpse into the scientific method and its users. Along the way we learn that brilliant men can be petty, hunches turn into fairly accurate models, and that we are all better off because of the hard and deliberate work of thoughtful scientists seeking to understand the world. --- ## Why Shop on Desertcart? - 🛒 **Trusted by 1.3+ Million Shoppers** — Serving international shoppers since 2016 - 🌍 **Shop Globally** — Access 737+ million products across 21 categories - 💰 **No Hidden Fees** — All customs, duties, and taxes included in the price - 🔄 **15-Day Free Returns** — Hassle-free returns (30 days for PRO members) - 🔒 **Secure Payments** — Trusted payment options with buyer protection - ⭐ **TrustPilot Rated 4.5/5** — Based on 8,000+ happy customer reviews **Shop now:** [https://www.desertcart.hr/products/27938640-black-hole-how-an-idea-abandoned-by-newtonians-hated-by](https://www.desertcart.hr/products/27938640-black-hole-how-an-idea-abandoned-by-newtonians-hated-by) --- *Product available on Desertcart Croatia* *Store origin: HR* *Last updated: 2026-05-22*