Fall 2004
MW 1:00-2:30 PM, Galileo/Pryne
Professor Olson
Office:
HMC, Parsons 1257
Office telephone: x7?4476
Email: olson@hmc.edu
To learn more about the conceptual and social natures of modern science and technology by exploring their historical development. Special emphasis will be placed this semester on three major themes:
Quizzes (20%): There will be 4 short quizzes during the semester. The best 3 of 4 quizzes will be selected as the basis for 20% of the grade in the course.
Reviews of STS-Related Conferences/Colloquia (5%): Throughout the semester, there will be several conferences or colloquia relating to topics in STS (science, technology & society). Students will write a two or three page review of a colloquium or a single session from one of the conferences to be the basis for 5% of the grade. (Many departmental colloquia have an STS theme, so they might be used for the review, but you must obtain approval for a specific colloquium in advance.). Reviews should contain a brief statement of the major point(s) the speaker(s) were trying to make and an evaluation of how successfully they made their case(s).
Written Responses to Readings (25%): To encourage students to read materials in a timely fashion, I am asking for 1?2 page responses to the reading for each meeting to be e-mailed to me by 10:30 A.M. on the day the reading is due. Responses should do one of three things:
Responses will be graded on a two point scale: zero (0) points for no response or one that shows virtually no effort to grapple with the material; 1 point for a response that shows any reasonable attempt to understand the subject matter; and 2 points for a thoughtful, thought-provoking response. To calculate this portion of the grade, I will average the best 15 responses (about 70% of the total), so in theory, you can get a perfect grade while skipping about 30% of the reading. An average of less than 1.0 points will received zero (0) credit for this portion of the grade; 1.0?1.33 points will get a C; 1.34?1.66 points will get a B; and greater than 1.66 points will get an A. [There are no “D” grades for this portion of the overall grade.]
Research Paper (25%): Each student will write one 7-10 page paper on a topic of his/her choice approved in advanced by the instructor. This paper will be due on November 17, and will constitute the basis for about 25% of the grade.
Final Examination (25%): A set of study questions will be handed out at the beginning of the course. The final examination will include five (5) of these questions, from which students will be asked to choose two (2) to answer during a 3 hour closed book, closed notes, take home final. Students are encouraged to establish study groups to prepare for the final, but it must be taken individually in one continuous three hour period and be turned in no later than the first day of final examinations.
Discussion Participation & Attendance: The instructor may raise or lower your grade by 1/3 of a grade (i.e., by a plus or minus) if he judges your contributions to in-class discussions to be unusually substantial or unusually negligible.
Recommended Book Purchases: The following have been ordered through Huntley Bookstore. Major portions of each will be used during the semester roughly in the order listed:
In addition, several common readings will be collected in a course packet for sale in the Humanities and Social Sciences Department Office in Parsons and placed on reserve at Sprague Library in a folder labeled “History 82."
Web Resources: Most valuable Web sites related to this class can be
located through one of two major sites:
History of Science on the World Wide
Web — http://www.ou.edu/cas/hsci/rel-site.htm
STS
Links — http://www2.ncsu.edu/ncsu/chass/mds/stslinks.html
Important Dates
Conference/colloquium reviews should be turned in within one week after event. They will be accepted later, but may have the grade lowered by 1/3 grade for each week the review is late.
Schedule of Topics and Readings: The following schedule is provisional. It suggests topics for each meeting and coordinates readings with lecture-discussion topics. The Sources of Additional Perspectives sections are for those who might want to follow up special lines of interest and for use in getting started on paper topics. Please do the readings before the class session for which they are appropriate if you possibly can. NOTE: The readings for this course will average less than 100 pp./week, although the reading schedule is somewhat uneven, with the heaviest reading loads at the beginning and towards the end.
Meeting 1 — September 1:
Introduction to perspectives in the
history of science and to the character and organization of the course. What are
science and technology? Why should we care about definitions?
Common Readings: NONE.
Sources of Additional Perspectives: Students with no previous exposure to the history of science might be interested in looking at some short essays defining the scope of the field. Of these, T.H. Kuhn's "History of Science" in the most recent Encyclopedia of the Social Sciences is beautifully clear and concise. Slightly more complex and comprehensive is John Christie’s “The Development of the Historiography of Science,” in R.C. Olby, et.al., Companion to the History of Modern Science (London, 1996). Now outdated, but fascinating for its positivist bent, is George Sarton's The Study of the History of Science. One of the most entertaining historiographic essays is Joseph Agassiz's "Toward An Historiography of Science", (History and Theory, Beiheft 2).
On definitions of science, see "Amicus Curiae Brief of 7 Nobel Laureates... In the Supreme Court of the United States, October term, 1986", pp. 1-4, 23?26 [current implicit Supreme court standard]; Steve Woolgar, Science: The Very Idea (London, 1988); J.R. Ravetz, "The Varieties of Scientific Experience" in A.R. Peacocke, ed., The Sciences and Theology in the Twentieth Century; Gavin McCain and Erwin M. Segal, The Game of Science (Belmont, 1969), especially Chs. 1 and 2]; Norman Campbell, What Is Science? (New York, 1952 from 1921 original); Thomas S. Kuhn, The Structure of Scientific Revolutions (Chicago, 1962); Charles Alan Taylor, Defining Science: A Rhetoric of Demarcation (Madison, 1996).
Meeting 2 — September 6:
Science, Technology, and the First
Industrial Revolution
Common Readings:
Selection from Richard Olson, Science Deified
and Science Defied, Volume 2, From The Early Modern Age through the Early
Romantic Era, c1640 to c1820, chapters 8 and 9, pp. 316-370 (on reserve/in
course packet)
James McClellan III and Harold Dorn, Science and Technology
in World History, Ch. 13, “The Industrial Revolution,” pp. 277-292 (on
reserve/in course packet)
Sources of Additional Perspectives:
Neil McKendrick, "The Role of
Science in the Industrial Revolution: A Study of Josiah Wedgewood as A Scientist
and Industrial Chemist," in M. Teich and R. Young, eds., Changing
Perspectives in the History of Science, pp. 274-319
Archibald and Nan
Clow, The Chemical Revolution: A Contribution to Social Technology
(Philadelphia, 1992 reprint of London, 1952 original)
A.E. Musson and Eric
Robinson, Science and Technology In the Industrial Revolution (Toronto,
1969)
Otto Mayer, Authority, Liberty, and Automatic Machinery in Early
Modern Europe (Baltimore, 1986)
Peter Mathias, Science and Society,
1600-1900 (Cambridge, 1972)
Robert Schofield, The Lunar Society Of
Birmingham: A Social History of Provincial Science and Industry (Oxford,
1963)
Margaret Jacob, Scientific Culture and the Making of the Industrial
West (New York, 1997)
Meeting 3 — September 8:
Science and Scientism in France in the
Aftermath of the Revolution
Common Readings:
Selection from Richard Olson, Science and
Scientisms in Nineteenth Century European Culture, draft chapters 1-3 (on
reserve/in course packet).
Sources of Additional Perspectives:
Joseph Ben David, The
Scientist's Role in Society, Ch. 6 (Chicago, 1971)
Robert Fox and George
Weisz, The Organization of Science and Technology in France: 1808-1914
(Cambridge, 1980)
L. Pearce Williams, “The Politics of Science in the French
Revolution,” pp. 291-308 in Marshall Clagett, Critical Problems in the
History of Science (Madison, 1959)
Cheryl B. Welch, Liberty and
Utility: The French Ideologues And the Transformation of Liberalism (New
York, 1984)
Frank Manuel, The Prophets of Paris (Cambridge, MA,
1962)
F.A. Hayek, The Counter-Revolution of Science: Studies on the Abuse
of Reason (New York, 1952)
Gertrude Lenzer, ed., Auguste Comte and
Positivism: The Essential Writings (New York, 1975).
Meeting 4 — September 13:
“Romantic” Science and University Culture
in Early 19th Century Germany
Common Readings:
Selection from Richard Olson, Science and
Scientisms in Nineteenth Century European Culture, draft chapter 4 (on
reserve/ in course packet).
Selection from Goethe, Theory of Colors,
pp. 67-76 in A.S. Weber, 19th Century Science: An Anthology
Sources of Additional Perspectives:
Kenneth Caneva, “Physics and
Naturphilosophie: A Reconnaissance,” History of Science (1997):
36-106
Michael Friedman, Kant and the Exact Sciences (Cambridge, MA,
1992)
Alexander Gode-Von Aesch, Natural Science in German Romanticism
(New York, 1941); Rudolph Magnus, Goethe as a Scientist (New York,
1961)
Astrida Orle Tantillo, The Will to Create: Goethe’s Philosophy of
Nature (Pittsburgh, 2002).
Meeting 5 — September 15:
The Professionalization of Science in the
Nineteenth Century
Common Readings:
Mary Jo Nye, Before Big Science, pp. 1-27
Sources of Additional Perspectives:
Everett Mendelsohn, "The
Emergence of Science as a Profession in 19th Century Europe," in Karl Hill,
The Management of Scientists (Boston, 1964)
George Basalla, et. al.,
eds., Victorian Science (New York, 1970)
A.D. Orange, "The Origins of
the British Association for the Advancement of Science," British Journal for
the History of Science, 6 (1972): 152-176
R. Steven Turner, "The Growth
of Professional Research in Prussia, 1818-1848, Causes and Context,"
Historical Studies in the Physical Sciences, 3 (1971): 137?182
Thomas
Browman, The Transformation of German Academic Medicine, 1750-1820
(Cambridge, 1996)
Arlelene Tuchman, Science, Medicine, and the State in
Germany, The Case of Baden, 1815-1871 (New York, 1993).
Meeting 6 — September 20:
The Spread of Science to Broader
Audiences
Common Readings:
Selection from Richard Olson, Science and
Scientisms in Nineteenth Century European Culture, draft chapter 6 (on
reserve/ in course packet)
Selection from Michael Faraday, The Chemical
History of a Candle, pp. 253-263 in A.S. Weber, 19th Century Science: An
Anthology
Sources of Additional Perspectives:
Frederick Gregory,
Scientific Materialism in Nineteenth Century Germany (Dordrecht,
1977)
Robert Kargon, Science in Victorian Manchester: Enterprise and
Expertise (Baltimore, Johns Hopkins University Press, 1962)
Susan
Sheets-Pyenson, “Popular Science Periodicals in Paris and London: The Emergence
of a Low Scientific Culture, 1820-1875,” Annals of Science, 42 (1985):
549-572
Steven Shapin and Barry Barnes, “Nature, Science, and Control:
Interpreting Mechanics Institutes,” Social Studies of Science, 7
(1977)
Thomas Hyde Cook, Science, Philosophy and Culture in the Early
Edinburgh Review, 1802-1829, Ph.D. Dissertation, University of Pittsburgh,
1976
Allison Winter, Mesmerized: Powers of Mind in Victorian Britain
(University of Chicago Press, 2000)
Iwan Rhys Morus, Frankenstein’s
Children (Princeton University Press, 1998)
Ian Inkster, “Science and the
Mechanics Institutes, 1820-1850: The Case of Sheffield,” Annals of
Science, 32 (1975):453-465
Meeting 7 — September 22:
Chemical Atomism and Electrochemistry to
the 1860's
Common Readings:
Nye, Before Big Science, pp.
28-56
Selection from John Dalton, A New System Of Chemistry, pp.
42-48, in A.S. Weber, 19th Century Science: An Anthology
Sources of Additional Perspectives:<br> Alan Rocke, Chemical
Atomism from Dalton to Cannizzaro (Columbus, 1984)
David Knight, Atoms
and Elements: A Study Of Matter in England in the Nineteenth Century
(London, 1967).
Meeting 8 — September 27:
Quiz #1, and Electricity and Magnetism
Through the Work of Faraday
Common Readings:
Prepare for Quiz #1
Nye, Before Big
Science, pp. 57-65.
Sources of Additional Perspectives:
L.P. Williams, Michael
Faraday (New York, 1965)
L.P. Williams, The Origins of Field
Theory (New York, 1966)
R.A.R. Tricker, Early Electrodynamics
(Oxford, 1965)
Geoffrey Cantor, Michael Faraday, Sandemanian and
Scientist (London, 1991).
Meeting 9 — September 29:
Electrodynamics and the Aether from
Maxwell to Michaelson and Morley
Common Readings: Nye, Before Big Science, pp. 65-87
Selection from
James Clerk Maxwell, “A Dynamical Theory of the Electromagnetic Field,” pp.
302-314, in A.S. Weber, 19th Century Science: An Anthology
Sources of Additional Perspectives:
R. Olson, Scottish
Philosophy and British Physics, 1750-1870: A Study of the Foundations of the
Victorian Scientific Style (Princeton, 1975)
R.A.R. Tricker, Early
Electrodynamics (Oxford, 1965)
R.A.R. Tricker, The Contributions of
Faraday and Maxwell to Electrical Science (Oxford, 1966)
Sir Edmund
Whittaker, A History of the Theories of Aether and Electricity, 2 vols.
(London, 1910, reprinted New York, 1951)
Kenneth Schaffner, ed.,
Nineteenth Century Aether Theories (Oxford, 1972)
Bruce Hunt, The
Maxwellians (Ithaca, 1991)
Barbara Doran, "Origins and Consolidation of
Field Theory in 19th Century Britain: From the Mechanical to the Electromagnetic
View of Nature," Historical Studies of the Physical Sciences, 6 (1975):
133-260.
Meeting 10 — October 4:
Energetics I: Heat, Light, Electricity and
the Conservation of Energy
Common Readings:
Nye, Before Big Science, pp.
88-94
Selection from Herman von Helmholtz, “On the Conservation of Force,”
pp. 278-299, in A.S. Weber, 19th Century Science: An Anthology
Sources of Additional Perspectives:
R. Olson, "Count Rumford, Sir
John Leslie, and the Study of the Nature and Propagation of Heat at the
Beginning of the 19th Century," Annals of Science, 20 (1970):
273?304
G.N. Cantor, "The Reception of the Wave Theory of Light in
Britain...", Historical Studies in the Physical Sciences, 6 (1975):
109-132
Eugene Frankel, "Corpuscular Optics and the Wave Theory of Light: The
Science and Politics of a Revolution in Physics," Social Studies of
Science, 6 (1976): 141-184
David M. Knight, "The Physical Sciences and
the Romantic Movement," History of Science, 9 (1970): 54-75
L.P.
Williams, The Origins of Field Theory (New York, 1966)
Morton
Mott-Smith, The Concept of Energy Simply Explained (New York, 1964
reprint of 1934 original, "The Story of Energy")
T.S. Kuhn, "Energy
Conservation as an Example of Simultaneous Discovery," in Marshall Claggett,
Critical Problems in the History of Science (Madison, 1959), pp. 321-356.
Yahuda Elkana, The Discovery of the Conservation of Energy (London,
1974).
Meeting 11 — October 6:
Energetics II: From the Conservation of
Energy to the Statistical Interpretation of Entropy
Common Readings:
Nye, Before Big Science, pp. 94- 119.
Sources of Additional Perspectives:
Clifford Truesdell, The
Tragicomical History of Thermodynamics - 1822-1854 (Springer-Verlag,
1980)
Stephen Brush, ed., Kinetic Theory (Oxford, 1965)
Stephen
Brush, “Foundations of Statistical Mechanics, 1845-1915,” Archives for the
History of the Exact Sciences, 4 (1967): 145-183
Englebert Broda,
Ludwig Boltzmann: Man, Physicist, Philosopher (Woodbridge, CT, 1983).
Meeting 12 — October 6:
Organic Chemistry From Vitalism to
Structural Formulas
Common Readings:
Nye, Before Big Science, pp. 120-146.
Sources of Additional Perspectives:
H.M. Leicester, The
Historical Background of Chemistry (New York, 1965)
O.T. Benfey, From
Vital Force to Structural Formulas (Washington, DC, 1975)
Aaron Ihde,
The Development of Modern Chemistry (New York, 1965)
Meeting 13 — October 13:
The Fusion of Exact Science and Advanced
Technology in the Late Nineteenth Century
Common Readings:
Eric Brose, Technology and Science in
Industrializing Nations, 1500-1914, pp. 59-93 (on reserve/in course packet).
Sources of Additional Perspectives:
John J. Beer, The Emergence
of the German Dye Industry (Urbana, 1959)
Thomas Hughes, Networks of
Power: Electrification in Western Society: 1880-1930 (Baltimore,
1983)
Charles Singer, et. al., eds., A History of Technology, Volume
5: The Late Nineteenth Century (Oxford, 1958)
Melvin Kransberg and Carroll
Purcell, eds. Technology in Western Civilization, 2 vols. (New York, 1967
[many excellent articles])
Meeting 14 — October 20:
Quiz #2 and The Rise of Experimental
Biology: Cell Theory and Embryology
Common Readings:
Prepare for Quiz #2
Theodor Schwann,
Microscopal Researches, pp. 119-136, from A.S. Weber, 19th Century
Science: An Anthology
Sources of Additional Perspectives:
William Coleman, Biology in
the Nineteenth Century: Problems of Form, Function, and Transformation (New
York, 1971)
Timothy Lenoir, Strategy of Life (Chicago, 1989 from 1982
original)
S. Bradbury, The Evolution of the Microscope (Oxford,
1967)
Jane Oppenheimer, Essays in the History of Embryology and Biology
(Cambridge, MA, 1967)
Meeting 15 — October 25:
The Rise of An Historical Perspective in
the Sciences I: The History of the Earth and Early Anthropology and
Anthropometry
Common Readings:
Stephen J. Gould, The Mismeasure of Man,
pp. 62-104
Selections from Burnet & Whiston in R.Olson, Science and
Religion from Copernicus to Darwin (on reserve/in course
packet)
Selection from Charles Lyell, Principles of Geology, pp.
100-112, in A.S. Weber, 19th Century Science: An Anthology
Sources of Additional Perspectives:
Claude C. Albritton, Jr.,
The Abyss of Time: Changing Conceptions of the Earth's Antiquity After the
Sixteenth Century (New York, 1986)
C.C. Gillispie, Genesis and
Geology (New York, 1951)
Martin J.S. Rudwick, The Great Devonian
Controversy (Chicago, 1985)
James A. Secord, Controversy in Victorian
Geology: The Cambrian-Silurian Dispute (Princeton, 1986)
Roy Porter,
The Rise of Statistical Thinking (Princeton, 1986)
William Stanton,
The Leopard's Spots: Scientific Attitudes Toward Race in America,
1815-1859 (Chicago, 1960)
Nancy Stepan, The Idea of Race in Science,
1800-1960 (Hamden, 1982)
Edward Evans-Pritchard, A History of
Anthropological Thought (New York, 1981)
Robert Nye, Crime, Madness,
and Politics in Modern France: The Medical Concept of National Decline
(Princeton, 1984)
Daniel Pick, Faces of Degeneration: A European Disorder:
c1848-1919 (Cambridge, 1989)
Meeting 16 — October 27:
Biological Evolution through the Darwinian
Revolution
Common Readings:
Selection from Richard Olson, Science and
Scientisms in Nineteenth Century European Culture, draft chapters 7 and 8
(on reserve/in course packet)
Selections from Lamarck, Spencer, and Darwin,
pp. 49-66, 190-202, 215-244 in A.S. Weber, 19th Century Science: An
Anthology
Sources of Additional Perspectives:
Peter Bowler, Evolution: The
History of an Idea (Berkeley, 1989)
Loren Eisley, Darwin's Century
(New York, 1958)
Adrian Desmond and James Moore, Darwin: The Life of a
Tormented Evolutionist (New York, 1993)
David Kohn, ed., The Darwinian
Heritage (Princeton, 1985)
Robert J. Richards, Darwin and The
Emergence of Evolutionary Theories of Mind and Behavior (Chicago,
1987)
Adrian Desmond, The Politics of Evolution (Chicago, 1991)
Meeting 17 — November 1:
Darwinism, Gender, and Race: Illustrations
of the Ideological Uses of Biology
Common Readings:
Gould, The Mismeasure of Man, Ch. 3, pp
105-141
Selection from Galton, Hereditary Genius, pp. 345-356, in A.S.
Weber, 19th Century Science: An Anthology
Sources of Additional Perspectives:
Jill Conway, "Stereotypes of
Femininity in a Theory of Sexual Evolution," Victorian Studies, 14
(1970): 47-62
Susan S. Mosedale, "Science Corrupted: Victorian Biologists
Consider 'The Woman Question,'" Journal of the History of Biology, 11
(1978): 1-55
Elaine Showalter, The Female Malady: Women, Madness, and
English Culture, 1830-1980 (New York, 1985)
Paul Crook, Darwinism,
War, and History (Cambridge, 1994)
Meeting 18 — November 3:
The New Biology of the Early 20th Century:
Pre-Molecular Genetics and Its Extension to Eugenics
Common Readings:
Gould, The Mismeasure of Man, Ch. 5, pp.
176-263
Sources of Additional Perspectives:
Diane B. Paul, Controlling
Human Heredity (Atlantic Highlands, NJ, 1995)
Dan Kevles, In the Name
of Eugenics (Berkeley, 1986)
Peter Bowler, The Mendelian
Revolution (Baltimore, 1989)
Nancy Leys Stepan, "The Hour of
Eugenics": Race, Gender, and Nation in Latin America (Ithaca,
1991)
Hamilton Cravens, The Triumph of Evolution: The Heredity-Environment
Controversy, 1900-1941 (Baltimore, 1988)
Garland Allen, Thomas Hunt
Morgan, The Man and His Science (Princeton, 1978)
Meeting 19 — November 8:
The Rise of Molecular Biology
Common Readings:
James Watson, The Double Helix - all
(although long, this book reads like a novel).
Sources of Additional Perspectives:
Garland Allen, Life Science
in the Twentieth Century (New York, 1975)
Horace F. Judson, The Eighth
Day of Creation (New York, 1980)
Meeting 20 — November 10:
Quiz #3
The Revolution in Physics I:
New Radiations and Particles, 1895-1910
Common Readings:
Prepare for Quiz #3
Nye, Before Big
Science, pp. 147-188
Selections from Roentgen and Marie Curie, pp. 445-
460, in A.S. Weber, 19th Century Science: An Anthology
Sources of Additional Perspectives:
J.J. Lagowski, The Structure
of Atoms (Boston, 1964)
David L. Anderson, The Discovery of the
Electron: The Development of the Atomic Concept of Electricity (Princeton,
1964)
E.N. Jenkins, Radioactivity: A Science in Historical and Social
Context (New York, 1979)
Alfred Romer, ed., The Discovery of
Radioactivity and Transmutation (New York, 1964)
Mario Bunge and W.R.
Shea, Rutherford and Physics at The Turn of the Century (New York,
1979)
George Thomson, J.J. Thomson, Discoverer of the Electron (New
York, 1966)
Meeting 21 — November 15:
From the Bohr Atom to Quantum Chemistry
Common Readings:
None — work on research paper due next week.
Sources of Additional Perspectives:
P.C.W. Davies and J.R. Brown,
eds., The Ghost in the Atom (Cambridge, 1986)
J.L. Heilbron, The
Dilemmas of An Upright Man: Max Planck as Spokesman for German Science
(Berkeley, 1986)
Jagdesh Mehra and Helmut Rechenberg, The Historical
Development of Quantum Theory, I (New York, 1982) — see reviews in
Science, 220 (1983): 824?827 and Isis, 76 (1985): 388-93, on
strictures on the use of this source
C. Weiner, ed., History of Twentieth
Century Physics (New York, 1977)
J.L. Heilbron and T.S. Kuhn, "The
Genesis of the Bohr Atom," Historical Studies in the Physical Sciences, I
(1969): 211-290
Meeting 22 — November 17:
The Special Theory of Relativity and its
Cultural Ramifications
NOTE: Research Paper due today
Common Readings:
Nye, Before Big Science, pp. 201-211
Sources of Additional Perspectives:
David Cassidy, Einstein and
Our World (Atlantic Highlands, NJ, 1995)
.Stanley Goldberg,
Understanding Relativity: Origin and Impact of a Scientific Revolution
(Cambridge, 1984)
Gerald Holton & Yehuda Elkana, Albert Einstein:
Historical and Cultural Perspectives (Princeton, 1982)
Arthur I. Miller,
Albert Einstein's Special Theory of Relativity: Emergence and Early
Interpretation (Boston, 1984)
L. Pearce Williams, ed., Relativity
Theory: Its Origin and Impact on Modern Thought (New York, 1968)
Meeting 23 — November 29:
Scientistic and Technocratic Trends in
the Early Twentieth Century
Common Readings:
John Burnham, Science in America, pp.
239-271 (on reserve/in course packet)
Selections from Frederick W. Taylor,
The Principles of Scientific Management (to be distributed in class)
Sources of Additional Perspectives:
Howard P. Segal,
Technological Utopianism in American Culture (Chicago, 1985)
Frederick
W. Taylor, Principles of Scientific Management (New York, 1911)
Martha
Banta, Taylored Lives: Narrative Productions in the Age of Taylor, Veblen,
and Ford (New Haven, 1993)
Samuel P. Hayes, Conservation and the
Gospel of Efficiency: The Progressive Conservation Movement - 1890-1920
(Cambridge, 1975 from 1959 original)
Robert Kanigel, The One Best Way:
Frederick Winslow Taylor and the Enigma of Efficiency (New York,
1997)
Samuel Haber, Efficiency and Uplift: Scientific Management in the
Progressive Era (Chicago, 1964)
Kendal Bailes, Technology and Society
Under Lenin and Stalin (Princeton, 1978)
Monika Renneberg and Mark
Walker, Science, Technology, and National Socialism (Cambridge,
1994)
Albert Speer, Inside the Third Reich (New York, 1970)
Paul
Josephson, Totalitarian Science and Technology (Atlantic Highlands, NJ,
1996)
Meeting 24 — December 1:
Nuclear Physics and “The Bomb”
Common Readings/Video Presentation:
Lawrence Badash, Scientists
and the Development of Nuclear Weapons, pp. 1-49
Begin viewing in class:
“The Day After Trinity” (the story of J. Robert Oppenheimer)
Sources of Additional Perspectives:
Neul Pharr Davis, Lawrence
and Oppenheimer (New York, 1968)
Barbara Lovett Cline, The Men Who
Made a New Physics (New York, 1965)
Arnold Thackray, ed., “Science After
'40", Osiris, 7, 1993
Daniel Kevles, The Physicists (New York,
1978)
Richard Rhodes, The Making of the Atomic Bomb (New York,
1986)
Alice K. Smith, A Peril and A Hope: The Scientists Movement in
America 1945-1947 (Chicago, 1965)
Meeting 25 — December 6:
Hiroshima, Nagasaki and Their Immediate
Consequences
Common Readings/Video Presentation:
Badash, Scientists and the
Development of Nuclear Weapons, pp. 48-62
Finish viewing in class: “The
Day After Trinity”; view “Hiroshima, Nagasaki” (footage taken by Japanese
cameramen immediately after the two blasts)
Sources of Additional Perspectives:
Martin Sherwin, A World
Destroyed: The Atomic Bomb and the Grand Alliance (New York, 1975)
United
States Strategic Bombing Survey, The Effects of Atomic Bombs on Hiroshima and
Nagasaki (Washington, DC, 1946)
Spencer Weart, Nuclear Fear: A History
of Images (Cambridge, MA, 1988)
Raphael Sassower, Technoscientific
Angst: Ethics and Responsibility (Minneapolis, 1997)
Meeting 26 - December 8:
Quiz #4, course evaluation, distribution
of final examinations
December 13 (Monday): Final Examination due:
submit either e-mail
or paper version no later than by 5:00 p.m.
Grades for late examinations will
be lowered by 1/3 of a grade for each 24 hour period or part thereof.