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Kew Observatory was originally built in 1769 for King George III, a keen amateur astronomer, so that he could observe the transit of Venus. By the mid-nineteenth century, it was a world-leading center for four major sciences: geomagnetism, meteorology, solar physics, and standardization. Long before government cutbacks forced its closure in 1980, the observatory was run by both major bodies responsible for the management of science in Britain: first the British Association for the Advancement of Science, and then, from 1871, the Royal Society. Kew Observatory influenced and was influenced by many of the larger developments in the physical sciences during the second half of the nineteenth century, while many of the major figures involved were in some way affiliated with Kew. Lee T. Macdonald explores the extraordinary story of this important scientific institution as it rose to prominence during the Victorian era. His book offers fresh new insights into key historical issues in nineteenth-century science: the patronage of science; relations between science and government; the evolution of the observatory sciences; and the origins and early years of the National Physical Laboratory, once an extension of Kew and now the largest applied physics organization in the United Kingdom.
From chatelaines to whale blubber, ice making machines to stained glass, this six-volume collection will be of interest to the scholar, student or general reader alike - anyone who has an urge to learn more about Victorian things. The set brings together a range of primary sources on Victorian material culture and discusses the most significant developments in material history from across the nineteenth century. The collection will demonstrate the significance of objects in the everyday lives of the Victorians and addresses important questions about how we classify and categorise nineteenth-century things. This second volume, ‘Science and Medicine’, will examine objects (from the most significant to the most obscure) that played a part in nineteenth-century scientific developments.
Weather forecasting is the most visible branch of meteorology and has its modern roots in the nineteenth century when scientists redefined meteorology in the way weather forecasts were made, developing maps of isobars, or lines of equal atmospheric pressure, as the main forecasting tool. This book is the history of how weather forecasting was moulded and modelled by the processes of nation-state building and statistics in the Western world.
This book will take the story of astronomy on from where Allan Chapman left it in Stargazers, and bring it almost up to date, with the developments and discoveries of the last three centuries. He covers the big names - Halley, Hooke, Herschel, Hubble and Hoyle; and includes the women who pushed astronomy forward, from Caroline Herschel to the Victorian women astronomers. He includes the big discoveries and the huge ideas, from the Milky War, to the Big Bang, the mighty atom, and the question of life on other planets. And he brings in the contributions made in the US, culminating in their race with the USSR to get a man on the moon, before turning to the explosion of interest in astronomy that was pioneered by Sir Patrick Moore and The Sky at Night.
Now largely forgotten, Henry Enfield Roscoe was one of the most prominent chemists and educational reformers in Victorian Britain. His contributions include transforming Owens College into Victoria University, now the University of Manchester, campaigning for the reform of technical education, serving as the Liberal MP for South Manchester, and cofounding the Lister Institute of Preventative Medicine. In this detailed biography, authors Morris and Reed provide a timely and original contribution to the history of nineteenth-century British science and its relation to education, industry, and government policy, highlighting Roscoe's significant legacy as one of the leading scientists of his generation.
Mass media in the late nineteenth century was full of news from Mars. In the wake of Giovanni Schiaparelli’s 1877 discovery of enigmatic dark, straight lines on the red planet, astronomers and the public at large vigorously debated the possibility that it might be inhabited. As rivalling scientific practitioners looked to marshal allies and sway public opinion—through newspapers, periodicals, popular books, exhibitions, and encyclopaedias—they exposed disagreements over how the discipline of astronomy should be organized and how it should establish acceptable conventions of discourse. News from Mars provides a new account of this extraordinary episode in the history of astronomy, revealing how major transformations in astronomical practice across Britain and America were inextricably tied up with popular scientific culture and a transatlantic news economy that enabled knowledge to travel. As Joshua Nall argues, astronomers were journalists, too, eliding practice with communication in consequential ways. As writers and editors, they played a pivotal role in the emergence of a “new astronomy” dedicated to the study of the physical constitution and life history of celestial objects, blurring harsh distinctions between those who produced esoteric knowledge and those who disseminated it.
The British have always been obsessed by the weather. Thomas Hornsby, who founded the Radcliffe Observatory in Oxford in 1772, began weather observations at the site. They continue daily to this day, unbroken since 14 November 1813, the longest continuous series of single-site weather records in the British Isles, and one of the longest in the world. Oxford Weather and Climate since 1767 represents the first full publication of this newly-digitised record of English weather, which will appeal to interested readers and climate researchers alike. The book celebrates this unique and priceless Georgian legacy by describing and explaining how the records were (and still are) made, examines monthly and seasonal weather patterns across two centuries, and considers the context of long-term climate change. Local documentary sources and contemporary photographs bring the statistics to life, from the clouds of 'smoak' from the Great Fire of London in 1666 to the most recent floods. This book explores all the weather extremes, from bitter cold winters to hot, dry summers, bringing to life the painstaking measurements made over the last 250 years.
In 1824, William Buckland stood in front of the Royal Geological Society and told them about the bones he had been studying – the bones of an enormous, lizard-like creature, that he called Megalosaurus. This was the first full account of a dinosaur. In this brilliantly entertaining, colourful biography – the first to be written for over a century – Buckland’s fascinating life is explored in full. From his pioneering of geology and agricultural science to becoming Dean of Westminster, this is a captivating story of an exceptional and eccentric scientist whose legacy extends down to this day. William Buckland DD, FRS (1784–1856) was a theologian and a scientist, who is widely regarded as the founder of the science of geology. He was an older contemporary of Charles Darwin and played a central role in the nineteenth-century ferment of ideas about the origins of the earth and of living things. A field geologist of genius, an avid fossil hunter and brilliant interpreter of fossils, landscapes, and earth history, Buckland was also a pioneer of agricultural science and an early ecologist. He demonstrated how the earth’s climate has undergone radical changes over geological time – from carboniferous swamps to ice ages, each with their own flora and fauna. Buckland was also a pioneer of public health reform, who (well before germ theory was established) grasped the centrality of clean drinking water to health, and who waged war on bad drains and slum landlords who exploited the poor.
The book describes the observational work of William and Caroline Herschel. It focuses on deep-sky objects, observed 1774-1817. Most were discovered by William in the monumental sweep campaign (1783-1802), assisted by his talented sister. 2500 objects were published in three catalogues. The study of the sky from southern England also concerned double stars and the Solar System, yielding the Uranus discovery in 1781. But William Herschel was much more than a mere observer. He built large reflectors, developed new methods and thought about the nature and evolution of cosmic objects and the structure of the Milky Way. He was an extremely influential astronomer and had a worthy successor, his son John.
The book describes the observational work of William and Caroline Herschel. It focuses on deep-sky objects, observed 1774-1817. Most were discovered by William in the monumental sweep campaign (1783-1802), assisted by his talented sister. 2500 objects were published in three catalogues. The study of the sky from southern England also concerned double stars and the Solar System, yielding the Uranus discovery in 1781. But William Herschel was much more than a mere observer. He built large reflectors, developed new methods and thought about the nature and evolution of cosmic objects and the structure of the Milky Way. He was an extremely influential astronomer and had a worthy successor, his son John.