You need to sign in or sign up before continuing.
Take a photo of a barcode or cover
funny
inspiring
lighthearted
sad
fast-paced
Talk about lengthy subtitles! This book has a retro styling to it, but scratch the surface and you’ll find it quite modern in its outlook. Sam Kean takes us on a journey through the periodic table: its history, the properties of its elements, and how those elements have fascinated/charmed/influenced our lives from ancient times to the modern era. The Disappearing Spoon is a blend of physics and history, science and sociology.
Although loosely chronological, Kean’s organization is more thematic than anything else. The first chapters explore the origins of our knowledge of elements and the creation of early periodic tables (or equivalent structures). The last chapters discuss the future of elemental chemistry and particle physics, meditating on such lofty questions as the maximum number of elements out there. (Interestingly, the book’s explanation for why it’s unlikely there are more than 137 elements is incorrect, perhaps somewhat oversimplified or outdated.) In between, however, Kean groups elements together based on the types of stories he has dug up about them. Some stories are highly scientific, others are industrial, and others still are tragically personal.
This book was highly successful in terms of teaching me new and interesting things! I will likely forget most of the anecdotes Kean shares here, but some will stick with me. For example, I was fascinated by the story of molybdenum’s role in the First World War, how Germany secretly exploited the only industrial source, which was located within the United States, and the similar story of tungsten in the Second World War and Portugal’s shrewd but morally dubious cornering of the market.
Indeed, if The Disappearing Spoon is anything, it’s an advertisement for the importance of materials science. So much of our technological innovation—which in turn leads to vast social improvements—comes from tinkering with chemical elements and compounds, either to make manufacturing them more efficient or to combine them in new, hitherto unanticipated ways. Elements like gadolinium, chromium, niobium might sound exotic to us laypeople, yet they have become essential to modern computing. Our entire way of life is underpinned by elements and compounds we either haven’t heard of or don’t think much about. It’s cool and breathtaking at the same time, and I think Kean does a good job, through this selection of anecdotes, of illustrating the scope of human ingenuity (and occasionally, cruelty or shortsightedness) when it comes to chemistry and physics.
The book dives pretty deep into the particle physics behind chemical elements too, which I wasn’t expecting from its description. It probably taught me more about electron shells and orbitals than I learned in my high school chemistry classes! I appreciate how Kean wants us to understand the deep links between phenomena like radioactivity and the decay of subatomic particles. Many of the stories Kean shares demonstrate how earlier investigators of the elements would observe a trait but not have a deep explanation for it, and quantum mechanics has helped us understand the why behind everything from an element’s reactivity to how common it is on Earth or in our universe.
The chemical elements are truly the building blocks of … well, everything. The Disappearing Spoon shows this and furnishes us with a lot of science while remaining quite accessible. I’ve got another element-focused book lined up to read soon as a companion to this one (I’ll update this review with a link when I’ve reviewed it) to continue my journey.
Originally posted at Kara.Reviews.
Although loosely chronological, Kean’s organization is more thematic than anything else. The first chapters explore the origins of our knowledge of elements and the creation of early periodic tables (or equivalent structures). The last chapters discuss the future of elemental chemistry and particle physics, meditating on such lofty questions as the maximum number of elements out there. (Interestingly, the book’s explanation for why it’s unlikely there are more than 137 elements is incorrect, perhaps somewhat oversimplified or outdated.) In between, however, Kean groups elements together based on the types of stories he has dug up about them. Some stories are highly scientific, others are industrial, and others still are tragically personal.
This book was highly successful in terms of teaching me new and interesting things! I will likely forget most of the anecdotes Kean shares here, but some will stick with me. For example, I was fascinated by the story of molybdenum’s role in the First World War, how Germany secretly exploited the only industrial source, which was located within the United States, and the similar story of tungsten in the Second World War and Portugal’s shrewd but morally dubious cornering of the market.
Indeed, if The Disappearing Spoon is anything, it’s an advertisement for the importance of materials science. So much of our technological innovation—which in turn leads to vast social improvements—comes from tinkering with chemical elements and compounds, either to make manufacturing them more efficient or to combine them in new, hitherto unanticipated ways. Elements like gadolinium, chromium, niobium might sound exotic to us laypeople, yet they have become essential to modern computing. Our entire way of life is underpinned by elements and compounds we either haven’t heard of or don’t think much about. It’s cool and breathtaking at the same time, and I think Kean does a good job, through this selection of anecdotes, of illustrating the scope of human ingenuity (and occasionally, cruelty or shortsightedness) when it comes to chemistry and physics.
The book dives pretty deep into the particle physics behind chemical elements too, which I wasn’t expecting from its description. It probably taught me more about electron shells and orbitals than I learned in my high school chemistry classes! I appreciate how Kean wants us to understand the deep links between phenomena like radioactivity and the decay of subatomic particles. Many of the stories Kean shares demonstrate how earlier investigators of the elements would observe a trait but not have a deep explanation for it, and quantum mechanics has helped us understand the why behind everything from an element’s reactivity to how common it is on Earth or in our universe.
The chemical elements are truly the building blocks of … well, everything. The Disappearing Spoon shows this and furnishes us with a lot of science while remaining quite accessible. I’ve got another element-focused book lined up to read soon as a companion to this one (I’ll update this review with a link when I’ve reviewed it) to continue my journey.
Originally posted at Kara.Reviews.
adventurous
informative
lighthearted
medium-paced
challenging
funny
informative
inspiring
slow-paced
Read all my reviews on http://urlphantomhive.booklikes.com
I finally finished this one.
It was a read for the Flat Book Society and I believe I was the last one still reading The Disappearing Spoon. It was not an easy read, especially at times. The first couple of chapters were all over the place and I know a lot of people DNFed at this point. I continued and I liked the later chapters much more.
It's better when Kean is not trying to explain the table, I find. Or, in his more future perspectives-part (the final chapters), these I also liked less.
My favorite anecdote is of two Danish researchers who were keeping onto some Nobel prizes of Jewish German scientists in the second world war and who dissolved the Novel prizes to make sure they survived the war. After the war, the gold was precipitated, sent back to the Nobel committee and they made the medal anew.
I finally finished this one.
It was a read for the Flat Book Society and I believe I was the last one still reading The Disappearing Spoon. It was not an easy read, especially at times. The first couple of chapters were all over the place and I know a lot of people DNFed at this point. I continued and I liked the later chapters much more.
It's better when Kean is not trying to explain the table, I find. Or, in his more future perspectives-part (the final chapters), these I also liked less.
My favorite anecdote is of two Danish researchers who were keeping onto some Nobel prizes of Jewish German scientists in the second world war and who dissolved the Novel prizes to make sure they survived the war. After the war, the gold was precipitated, sent back to the Nobel committee and they made the medal anew.
adventurous
challenging
informative
slow-paced
The facts should be updated.
Lots of fun. One of those books where you keep saying, "wow, listen to this!"
Bit of a mixed bag, most of the anecdotes were super interesting but of course there were some duds as well. Turned into sort of an eclectic history of 21st century science, with lots of great bios about interesting people and eventful lives. Especially interesting for the chapter on the mixing of politics and science and the many stories that illustrate how life has its way of interfering with (and helping!) the objective business of science. I found myself not wanting to pick it back up and start reading again, maybe because of the format, which was essentially a series of short, linked essays.
Segundo libro de divulgacion científica que leo de Sam Kean (el primero fue: [b:el pulgar del violinista|33630568|el pulgar del violinista|Sam Kean|https://s.gr-assets.com/assets/nophoto/book/50x75-a91bf249278a81aabab721ef782c4a74.png|19082058] y que me parece excelente, además de muy entretenido. En esta oportunidad el objeto a tratar es la tabla periódica de los elementos, desde la historia de su creación como concepto, hasta las diferentes formas de agrupar a cada elemento a medida que la química y la física fueron entendiendo más a cada uno (y descubriéndolos). Muy recomendable.
informative
slow-paced
challenging