100 Books Like Attention Is Discovery

In this classic book, Kuhn introduces the idea of a "paradigm" and shows that real progress comes through paradigm shifts.

That hit me like a rock when I first read it. I love how in the second edition, Kuhn talks about the difficulties of deep change: "the problem is that the new paradigm is always worse than the old one." 

The new paradigm may be better in some way, but it is also sketchy, unformed, and it creates lots of new uncertainties. So, for somebody to shift to a new paradigm always requires a leap of faith!

I’m always talking to scientists, but I have never undertaken anything like Bruno Latour’s voyage of ethnographic discovery. He decided to figure out how science works by embedding himself in a scientific lab for two years and, discarding all preconceptions, recording what he saw there as though he were an anthropologist visiting a foreign culture.

It turns out to be an intensely political culture: rather than following prescribed laws of method and logic, scientists are making judgment calls and negotiating with one another to decide the significance of their data, making it up as they go along. Latour brings out the subjectivity of much low-level scientific decision-making, in contrast to Kuhn’s picture, in which the blueprint for thinking—the paradigm—rules over the enterprise like a catechism.

Of course I love an exposé, heavily seasoned with gossip. Wade’s book tells the story of a race between two teams of scientists to discover the structure of an important brain hormone.

The reality of science is laid out in all its guts and glory: each team leader’s vaulting ambition to win the race, the complicated, error-prone nature of scientific research, and the tremendous and tedious effort involved from day to day—one of the team leaders later estimated he had processed 100,000 pig brains, just to extract enough of the vital substance to run through a testing regime.

In a delightful twist, one of the labs involved in the race is the very place that Latour infiltrated a few years later, and like Latour, Wade shows how the crucial decision to claim that the structure of the molecule had been discovered was as political as it was scientific.

In a cancer research lab, a young scientist thinks he might have found a cure for cancer. But his colleague, who just happens to be his ex-girlfriend, is convinced there are flaws in his work.

I loved the way this novel evokes the reality of scientists’ lab work and their struggles to try and determine what is ‘really’ going on. Too often, science is presented in the media as a straightforward yes-no/right-wrong pursuit, whereas in reality, it’s messy and full of dead ends. This novel portrays scientists as human beings who bring their own passions and prejudices into the lab, which struck me as all too relatable.

My astronomer kid self adored this book. My adult self was astonished by this accomplished work of nonfiction. Dual narratives take the stage on each page. First, the star that is trying so hard to be born, and second, the girl Cecilia Payne who tries so hard to understand the natural world. As the star goes through various phases, so does Cecilia, who longs to make scientific discoveries. Brilliantly told, the stories of the star and Cecilia parallel each other. I found myself going back and forth between them, marveling at inset pencil and walnut ink illustrations that never overpowered the text.

As a girl, I, too, loved natural science and wished this book had been published in my day. I might have been prepared to carve my way into a man’s world, as Cecilia did. Back matter fills in how stars are born—Cecilia’s discovery—plus a timeline of her amazing… show more.

Thinking about this book, I’m reminded of the quote “Well-behaved women seldom make history,” a phrase originally coined by historian Laurel Thatcher Ulrich, and which is often interpreted to mean that women ought to rebel in order to be remembered – although Ulrich’s original intent was actually to encourage us to appreciate the quiet impact that billions of ordinary women have made upon history.

In The Stargazer’s Sister, Caroline Herschel, the often-ignored sister of famous astronomer William Herschel, is a shy and soft-spoken soul, who starts out assisting with her brother’s work and ends up becoming an accomplished astronomer in her own right.

A beautiful and atmospheric read, this book is a great reminder that women’s contributions to science throughout history often consisted of unglamorous, behind-the-scenes work – but that doesn’t mean that they should be credited any less for their skill and ingenuity! 

Author Emily Levesque seeks out powerful telescopes and the people who run them, looking at the evolution of astronomy from a science based on hands-on observing to one more centered on remote-controlled instruments. In the book, she questions what astronomy may have lost in its shift toward more distanced and abstracted technology—and what sorts of creativity and adventure it could retain if the study of the stars were a little more like it was in centuries past. I enjoyed the hard, but narrative and engaging, look at what professional astronomers gain and lose from the way they look at the stars (and everything else in the sky).

Denizens of the twenty-first century need to hop on board a time machine if they want to really see and comprehend the structure and workings of the world through nineteenth-century eyes. Making Stars Physical is just the ticket!  It pulls the modern reader back into an era when the science of astronomy was still mainly focused on tracking the movement of Earth's solar system companions against the array of carefully plotted background stars. It also reveals that, despite a public façade of stability and uniformity of purpose, astronomy's disciplinary boundaries were beginning to blur.

Author Stephen Case presents an engaging examination of the prehistory of astrophysics and the pivotal role played in it by polymath John Frederick William Herschel (1792-1871), whose views reflected the complexity, strengths, and limitations of the state of contemporary astronomical knowledge. Although, like many of his contemporaries, he doubted that the chemists' trusted spectroscope would be… show more.

Young people today casually speak of "galaxies far, far away".  They seem to have an intuitive, even if fanciful, understanding that, like science fiction aliens, they and their fellow humans also reside in a galaxy of their own. A mere century ago, such a belief was a matter of highly debatable conjecture. How did earthbound observers learn that the Sun is just one of the hundreds of billions of stars bound gravitationally in a vast spiral-shaped galaxy? 

As Minding the Heavens ably demonstrates, the answer to that question is a long and fascinating story, one that author Leila Belkora vividly recounts using chapter-length biographies of seven astronomers from the 18th to the 20th centuries.  With help from their assistants and family as well as communication with contemporaries, these curiosity-driven individuals endeavored to determine the form and structure of the celestial realm and learn the true nature of the mysterious hazy… show more.

In the late 18th century, European scientists claimed that “the sciences were never at war,” using as an example the international Transit of Venus voyages that took place during the height of the Seven Years’ War.

Even though the two opposing sides–France and Britain–were engaged in one of the bloodiest conflicts of that century, scientists from those two nations, as well as many allied nations on both sides, traveled vast distances across the globe (including Tahiti, South Africa, and Siberia) to witness the two Transits of Venus, 1761 and 1769.

Facing not just war but also fierce cold, disease, and the perils of ocean navigation (see Longitude above), the astronomers combined their observations to give mankind its first glimpse of the enormous scale of our solar system.