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Investigates the complex social processes involved in the introduction and institutionalization of Western science in colonial India.
This book covers the whole range of technology, from the tools and skills of ordinary men and women to the instruments of astronomers and the equipage and weaponry of war. Changes in technology are carefully traced and their consequences examined. Larger questions, such as those of constraints on technological development and the role of the social and economic environment, are also addressed. This volume, in line with the others of A People's History of India, gives several extracts from texts, containing significant information about specific aspects of pre-modern technology. There are special notes on technical terms, sources of the history of technology, the problem of invention versus diffusion, and the development of medieval technology outside India. It includes illustrations taken from medieval sculpture, painting and book-illustrations. The volume is addressed to the general reader as well as the student, who would like to read about something on which conventional textbooks have little to offer. A special effort is made to keep the style non-technical without loss of accuracy. It is hoped that the theme is sufficiently interesting not only for the historian but for any citizen wanting to know what common people, men and women, did with their hands and tools in earlier times.
In 1150 AD, Bhaskaracarya (b. 1114 AD), renowned mathematician and astronomer of Vedic tradition composed Lilavati as the first part of his larger work called Siddhanta Siromani, a comprehensive exposition of arithmetic, algebra, geometry, mensuration, number theory and related topics. Lilavati has been used as a standard textbook for about 800 years. This lucid, scholarly and literary presentation has been translated into several languages of the world. Bhaskaracarya himself never gave any derivations of his formulae. N.H. Phadke (1902-1973) worked hard to construct proofs of several mathematical methods and formulae given in original Lilavati. The present work is an enlargement of his Marathi work and attempts a thorough mathematical explanation of definitions, formulae, short cuts and methodology as intended by Bhaskara. Stitches are followed by literal translations so that the reader can enjoy and appreciate the beauty of accurate and musical presentation in Lilavati. The book is useful to school going children, sophomores, teachers, scholars, historians and those working for cause of mathematics.
Essays fra 1940-1975, med udgangspunkt i middelalderens teknologiske frembringelser, og videnskabsmænd.
Tantrasangraha, composed by the renowned Kerala astronomer Nīlakantha Somayājī (c.1444-1545 AD) ranks along with Āryabhatīya of Āryabhata and Siddhāntaśiromani of Bhāskarācārya as one of the major works which significantly influenced further work on astronomy in India. One of the distinguishing features is the introduction of a major revision of the traditional Indian planetary model. Nīlakantha arrived at a unified theory of planetary latitudes and a better formulation of the equation of centre for the interior planets (Mercury and Venus) than was previously available. In preparing the translation and explanatory notes, K. Ramasubramanian and M. S. Sriram have used authentic Sanskrit editions of Tantrasangraha by Surand Kunjan Pillai and K V Sarma. All verses have been translated into English, which have been supplemented with detailed explanations including all necessary mathematical relations, illustrative examples, figures and tables using modern mathematical notation.
The Volume Science, Technology, Imperialism And War Interlinks The Concerned Themes To Present A Coherent Analyssis Of The Development Of Related Ideas And Institutions In The Subcontinent. The Chapters On Science, Therefore, Look At The Cognitive And Socio-Historical Aspects Of Science, Relating The Same With The Establishment And Spread Of Imperialism In India; With Its Application To Develop Technologies; And With The Use Of Such Technologies To Fund The Major Preoccupation Of Imperialism - War. Likewise, The Section On Technology Leads The Reader To A Search For Its Very Probable Links With Imperialism And War. The Section On Imperialism Offers Four Themes In The Edited Volume: The First One Deals With Its Theories; The Second With Its Link With Colonialism; And The Third And The Fourth Follow Its Manifestation In The Russian And British Adventures-Chiefly In Central Asia And India. The Depecdence Of Imperialism On War Looms Large. War, The Concluding Theme Of This Exercise, Is The Saturation Point Of Himan Efforts To Subjugate And Dominate Others. The Scholars Writing In This Section Critically Survey The Various Kinds Of War-Conventional, Linited And Nuclear-And A Detailed And Insightful Analysis Of The Cold War By The Editor Completes The Picture. This Volume Will Prove Invaluable To Scholars And Students Of South Asian Studies, History, Political Science And International Relations, And Defence Studies Alike.
In 1909 Mohandas Karamchand Gandhi, on his way back to South Africa from London, wrote his now celebrated tract Hind Swaraj, laying out his vision for the future of India and famously rejecting the technological innovations of Western civilization. Despite his protestations, Western technology endured and helped to make India one of the leading economies in our globalized world. Few would question the dominant role that technology plays in modern life, but to fully understand how India first advanced into technological modernity, argues David Arnold, we must consider the technology of the everyday. Everyday Technology is a pioneering account of how small machines and consumer goods that originated in Europe and North America became objects of everyday use in India in the late nineteenth and early twentieth centuries. Rather than investigate “big” technologies such as railways and irrigation projects, Arnold examines the assimilation and appropriation of bicycles, rice mills, sewing machines, and typewriters in India, and follows their impact on the ways in which people worked and traveled, the clothes they wore, and the kind of food they ate. But the effects of these machines were not limited to the daily rituals of Indian society, and Arnold demonstrates how such small-scale technologies became integral to new ways of thinking about class, race, and gender, as well as about the politics of colonial rule and Indian nationhood. Arnold’s fascinating book offers new perspectives on the globalization of modern technologies and shows us that to truly understand what modernity became, we need to look at the everyday experiences of people in all walks of life, taking stock of how they repurposed small technologies to reinvent their world and themselves.
In the late 1800s, Indians seemed to be a people left behind by the Industrial Revolution, dismissed as “not a mechanical race.” Today Indians are among the world’s leaders in engineering and technology. In this international history spanning nearly 150 years, Ross Bassett—drawing on a unique database of every Indian to graduate from the Massachusetts Institute of Technology between its founding and 2000—charts their ascent to the pinnacle of high-tech professions. As a group of Indians sought a way forward for their country, they saw a future in technology. Bassett examines the tensions and surprising congruences between this technological vision and Mahatma Gandhi’s nonindustrial modernity. India’s first prime minister, Jawaharlal Nehru, sought to use MIT-trained engineers to build an India where the government controlled technology for the benefit of the people. In the private sector, Indian business families sent their sons to MIT, while MIT graduates established India’s information technology industry. By the 1960s, students from the Indian Institutes of Technology (modeled on MIT) were drawn to the United States for graduate training, and many of them stayed, as prominent industrialists, academics, and entrepreneurs. The MIT-educated Indian engineer became an integral part of a global system of technology-based capitalism and focused less on India and its problems—a technological Indian created at the expense of a technological India.
This book critically examines different aspects of scientific and technological development in Ancient India. It studies the special contribution of the history of science in our scientific understanding and its relationship with the philosophy and sociology of science. The volume: Discusses diverse and wide-ranging themes including Tibetan Buddhist tradition of neuro-biology; Sheds light on the unique developments within iron technology and urbanization in ancient Odisha; Studies the trajectory of proto-historic astronomy in India and the science of monsoon in early India; Evaluates the legacy of Aryabhata based on his major works related to astronomy and mathematics through a multidimensional perspective; Analyses the traditional knowledge of medicine in early India, the golden age of surgery with reference to the ancient Greek and Arabic systems of medicine, and the Buddhist influence on the science of medicine in Tibet. This book will be an essential read for scholars and researchers of ancient history, Indian history, history of science, history of technology, science and technology studies, and South Asian studies.