Drawing on extensive new research, and bringing much new scholarship before English readers for the first time, this wide-ranging volume examines how knowledge was created and circulated throughout the Dutch Empire, and how these processes compared with those of the Imperial Britain, Spain, and Russia.
Drawing on extensive new research, and bringing much new scholarship before English readers for the first time, this wide-ranging volume examines how knowledge was created and circulated throughout the Dutch Empire, and how these processes compared with those of the Imperial Britain, Spain, and Russia.
This book is open access under a CC BY license. This is the first account of Britain's plans for industrial development in its Caribbean colonies - something that historians have usually said Britain never contemplated. It shows that Britain's remedy to the poor economic conditions in the Caribbean gave a key role to laboratory research to re-invent sugarcane as the raw material for making fuels, plastics and drugs. Science at the end of empire explores the practical and also political functions of scientific research and economic advisors for Britain at a moment in which Caribbean governments operated with increasing autonomy and the US was intent on expanding its influence in the region. Britain's preferred path to industrial development was threatened by an alternative promoted through the Caribbean Commission. The provision of knowledge and expertise became key routes by which Britain and America competed to shape the future of the region, and their place in it.
Today, predicting the impact of human activities on the earth’s climate hinges on tracking interactions among phenomena of radically different dimensions, from the molecular to the planetary. Climate in Motion shows that this multiscalar, multicausal framework emerged well before computers and satellites. Extending the history of modern climate science back into the nineteenth century, Deborah R. Coen uncovers its roots in the politics of empire-building in central and eastern Europe. She argues that essential elements of the modern understanding of climate arose as a means of thinking across scales in a state—the multinational Habsburg Monarchy, a patchwork of medieval kingdoms and modern laws—where such thinking was a political imperative. Led by Julius Hann in Vienna, Habsburg scientists were the first to investigate precisely how local winds and storms might be related to the general circulation of the earth’s atmosphere as a whole. Linking Habsburg climatology to the political and artistic experiments of late imperial Austria, Coen grounds the seemingly esoteric science of the atmosphere in the everyday experiences of an earlier era of globalization. Climate in Motion presents the history of modern climate science as a history of “scaling”—that is, the embodied work of moving between different frameworks for measuring the world. In this way, it offers a critical historical perspective on the concepts of scale that structure thinking about the climate crisis today and the range of possibilities for responding to it.
Following a hit and run that injures his son, John Spector is shocked when the driver comes forward to confess the accident was planned and that John made the arrangements. Upset by the suggestion, he embarks on a quest that will take him through the bizarre underbelly of the city in search of the truth. Even when faced with demons bent on stopping him, haunted by dreams of a man he's never met or sidelined by concerns for his mental health, John remains unshakable. Only after his path leads to the philanthropist Charles Dapper does his determination waver, for this is when he must make an extraordinary self sacrifice to realize his goal or risk losing everything.
In Empire of Light, Sidney Perkowitz combines the expertise of a physicist with the vision of an art connoisseur and the skill of an accomplished writer to offer a unique view of the most fundamental feature of the universe: light. Empire of Light discusses the nature of light, how the eye sees, and how our understanding of these phenomena have emerged over the ages, including the role of light in the development of quantum physics. The author examines the making of electrical light and its integration into commerce, telecommunications, entertainment, medicine, warfare, and every other aspect of our daily lives. And he presents the role of light in the search for the beginning and the end of the universe, as astronomers with their instruments penetrate ever deeper into the sky. Visible light spans the spectrum between infrared and ultraviolet, but this book reaches across many other spectra as well--from the cave paintings at Lascaux to Mark Rothko's stark blocks of color in today's art museums, from Plato's speculation that the eye sends out rays to Ramon y Cajal's discovery that vision actually works in the opposite way, from Tycho Brahe's elegant antetelescope measurements of planet positions to the Hubble telescope's exquisite sensitivity to light from billions of light years away. What are the biological and neurological processes of perceiving visible light? How does a person typically scan a scene? Do you see red or blue the same way I do? What are our physiological reactions and emotional responses to light? Perkowitz explores these and many other fascinating questions, drawing together the experiences, achievements, and perspectives of a diverse cast of characters, including Galileo, Einstein, Newton, Van Gogh, and Edison. Empire of Light is written so that lay readers will readily grasp the scientific principles and science professionals will readily appreciate the human experience. It will impart new wonder to the daily experience of light in our world. Sidney Perkowitz is the Charles Howard Candler Professor of Physics at Emory University. His work has appeared in national publications such as The Sciences, The Washington Post, The Los Angeles Times, The American Prospect, and Technology Review.
In the second half of the nineteenth century, British firms and engineers built, laid, and ran a vast global network of submarine telegraph cables. For the first time, cities around the world were put into almost instantaneous contact, with profound effects on commerce, international affairs, and the dissemination of news. Science, too, was strongly affected, as cable telegraphy exposed electrical researchers to important new phenomena while also providing a new and vastly larger market for their expertise. By examining the deep ties that linked the cable industry to work in electrical physics in the nineteenth century - culminating in James Clerk Maxwell's formulation of his theory of the electromagnetic field - Bruce J. Hunt sheds new light both on the history of the Victorian British Empire and on the relationship between science and technology.
Offering one of the first analyses of how networks of science interacted within the British Empire during the past two centuries, this volume shows how the rise of formalized state networks of science in the mid nineteenth-century led to a constant tension between administrators and scientists.
The focus of this volume is the history of imperial science between 1600 and 1960, although some essays reach back prior to 1600 and the section about decolonization includes post-1960 material. Each contributed chapter, written by an expert in the field, provides an analytical review essay of the field, while also providing an overview of the topic. There is now a rich literature developed by historians of science as well as scholars of empire demonstrating the numerous ways science and empire grew together, especially between 1600 and 1960.