- Stanford University Press
Models: The Third Dimension of Science
Key Metrics
- Soraya De Chadarevian
- Stanford University Press
- Hardcover
- 9780804739719
- 9.36 X 6.44 X 1.2 inches
- 1.66 pounds
- Science > History
- English
Book Description
Now that '3-D models' are so often digital displays on flat screens, it is timely to look back at the solid models that were once the third dimension of science. This book is about wooden ships and plastic molecules, wax bodies and a perspex economy, monuments in cork and mathematics in plaster, casts of diseases, habitat dioramas, and extinct monsters rebuilt in bricks and mortar. These remarkable artefacts were fixtures of laboratories and lecture halls, studios and workshops, dockyards and museums. Considering such objects together for the first time, this interdisciplinary volume demonstrates how, in research as well as in teaching, 3-D models played major roles in making knowledge. Accessible and original chapters by leading scholars highlight the special properties of models, explore the interplay between representation in two dimensions and three, and investigate the shift to modelling with computers. The book is fascinating reading for anyone interested in the sciences, medicine, and technology, and in collections and museums.
Author Bio
Soraya de Chadarevian is Professor in the Department of History and the Institute for Society and Genetics. She is a historian of science, technology and medicine with background in biology and philosophy. Her main area of interest are the life sciences in the twentieth and twenty-first century. Her research has been supported by numerous grants, including most recently by a scholar award from the National Science Foundation (2015-2021).
She has held fellowships and visiting appointments at the Walther Rathenau Program and the Max Planck Institute for History of Science in Berlin; at La Villette and the École des Hautes Études en Sciences Sociales in Paris; at the Hamburg Institute for Social Research; at Churchill College Cambridge and at the Institute for Advances Studies in the Humanities at the University of Edinburgh. Before joining the faculty at UCLA, she was a senior research associate and affiliated lecturer in the Department of History and Philosophy of Science at the University of Cambridge (1991-2006) where she keeps the status of an affiliated scholar.
She is interested in the material and visual practices in the life sciences and the place of these sciences in the broader culture as well as in historiographical issues. She has worked extensively on the history of molecular biology and the complex scientific, institutional, political and cultural processes that contributed to the development of the new science with its broad implications for our understanding of the production and reproduction of life.
Her publications on this topic include the monograph Designs for Life: Molecular Biology after World War II (Cambridge 2002; paperback 2011); the exhibition catalogue Representations of the Double Helix (Whipple Museum 2002); the co-edited volume Molecularizing Biology and Medicine: New Strategies and Alliances, 1910s-1970s (Harwood 1998); three co-edited journal issues as well as numerous articles and book chapters. Other publications include the co-edited volume Models: The Third Dimension of Science (Stanford 2004) and a book on the philosophy of the French phenomenologist Maurice Merleau-Pont (Zwischen den Diskursen, 1990).
More recently, she has published on the use of genetic evidence in history, on questions of the archives, on genetic studies of human populations, and on histories of data and the database.
Her most recent monograph Heredity under the Microscope: Chromosomes and the Study of the Human Genome (Chicago 2020) is a study of the postwar history of human heredity, told from the vantage point of chromosomes. Today chromosomes are understood as macromolecular assemblies and are analyzed with a variety of molecular techniques. Yet for much of the twentieth century, researchers studied chromosomes looking down the microscope.
Making space for microscope-based next to molecular approaches to human heredity, the book investigates the many fields – from radiobiology and toxicology to cancer research, clinical diagnosis, gender testing, criminology and the study of human populations – where genetic explanations where taken up or resisted. By following chromosomes and the images that traveled with them, the book sheds new light on how genetic evidence gained prominence in the atomic age and beyond.
She teaches courses on genetics and society and on science as a way of knowing at ISG as well as introductory and advanced history of science, technology and medicine courses for undergraduate and graduate students in the Department of History.
Source: UCLA Institute for Society and Genetics
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