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History and Philosophy of Science (HPS) Graduate Courses (2021-22)

HPS 102 ab. Senior Research Seminar. 12 units (2-0-10): . Offered in any two consecutive terms, by arrangement with HPS faculty. Under the guidance of an HPS faculty member, students will research and write a focused research paper of 15,000 words (approximately 50 pages). Work in the first term will comprise intensive reading in the relevant literature and/or archival or other primary source research. In the second term, students will draft and revise their paper. Open to seniors in the HPS option and to others by special permission of an HPS faculty member. Instructor: Staff.
HPS 103. Public Lecture Series. 1 unit: first, second, third terms. Student attend four lectures, featuring speakers from outside Caltech, on topics in the history and philosophy of science. Students may choose from a variety of regularly scheduled HPS lectures, including HPS seminars, Harris lectures, and Munro seminars (history or philosophy of science only). Graded on attendance. Not available for credit toward the humanities-social science requirement. Graded pass/fail. Instructor: Visiting lecturers.
HPS/Pl/CS 110. Causation and Explanation. 9 units (3-0-6): second term. An examination of theories of causation and explanation in philosophy and neighboring disciplines. Topics discussed may include probabilistic and counterfactual treatments of causation, the role of statistical evidence and experimentation in causal inference, and the deductive-nomological model of explanation. The treatment of these topics by important figures from the history of philosophy such as Aristotle, Descartes, and Hume may also be considered. Not offered 2021-2022. Instructor: Eberhardt.
HPS/Pl 120. Introduction to Philosophy of Science. 9 units (3-0-6): second term. An introduction to fundamental philosophical problems concerning the nature of science. Topics may include the character of scientific explanation, criteria for the conformation and falsification of scientific theories, the relationship between theory and observation, philosophical accounts of the concept of "law of nature," causation, chance, realism about unobservable entities, the objectivity of science, and issues having to do with the ways in which scientific knowledge changes over time. Instructor: Sebens.
HPS/Pl 122. Probability, Evidence, and Belief. 9 units (3-0-6): second term. Philosophical and conceptual issues arising from the study of probability theory and how it relates to rationality and belief. Topics discussed may include the foundations and interpretations of probability, arguments for and against the view that we ought to have personal degrees of belief, rational change in beliefs over time, and the relationship between probability and traditional epistemological topics like evidence, justification, and knowledge. Not offered 2021-2022.
HPS/Pl 123. Introduction to the Philosophy of Physics. 9 units (3-0-6): second term. Prerequisites: Ph 1abc or instructor's permission. This course will examine the philosophical foundations of the physical theories covered in the freshman physics sequence: classical mechanics, electromagnetism, and special relativity. Topics may include: the goals of physics; what laws of nature are; the unification of physical theories; symmetries; determinism; locality; the reality of fields; the arrow of time. Instructor: Sebens.
HPS/Pl 124. Philosophy of Space and Time. 9 units (3-0-6): second term. This course will focus on questions about the nature of space and time, particularly as they arise in connection with physical theory. Topics may include the nature and existence of space, time, and motion; the relationship between geometry and physical space (or space-time); entropy and the direction of time; the nature of simultaneity; and the possibility of time travel. Not offered 2021-2022. Instructor: Hubert.
HPS/Pl 125. Philosophical Issues in Quantum Physics. 9 units (3-0-6): third term. Prerequisites: Ph 2b, Ph 12b, or Ch 21a. This course will focus on philosophical and foundational questions raised by quantum physics. Questions may include: Is quantum mechanics a local theory? Is the theory deterministic or indeterministic? What is the role of measurement and observation? Does the wave function always obey the Schrödinger equation? Does the wave function give a complete description of the state of a system? Are there parallel universes? How are we to understand quantum probabilities? Instructor: Hubert.
HPS/Pl 128. Philosophy of Mathematics. 9 units (3-0-6): second term. An examination of conceptual issues that arise in mathematics. The sorts of issues addressed may include the following: Are mathematical objects such as numbers in some sense real? How do we obtain knowledge of the mathematical world? Are proofs the only legitimate source of mathematical knowledge? What is the relationship between mathematics and the world? How is it possible to apply abstract theory to the world? Views of major historical figures such as Plato, Hume, Kant, and Mill, as well as of contemporary writers are examined. The course will also examine philosophical issues that arise in particular areas of mathematics such as probability theory and geometry. Not offered 2021-2022. Instructor: Hitchcock.
H/HPS 130. Technology and Environment in America. 9 units (3-0-6): third term. As climate change has become an increasingly heated topic around the world, Americans across political and professional arenas often invoke technology as both a cause and potential solution. In American culture, an enthusiasm for innovation often overshadows the messier ways that humans interact with our surroundings through the artifacts and technologies that we create. In this course, we will examine the interplay between environment and technology in America, from before the arrival of Europeans on the North American continent through present debates about our changing planet. We will consider the boundaries that different groups have drawn between natural and artificial, and how these definitions have shaped the cultural, political, and material landscape of America. How useful are these boundaries? How might challenging them help us rethink America's history and its future? In this seminar, students will practice using the tools and methods of history to make a clear, persuasive argument. Each student will choose a relevant term project topic in consultation with the instructor. Assignments throughout the term will cumulatively build into an original piece of writing grounded in primary and secondary source research. In class, we will read and discuss texts that explore intersections of technology and the environment in American history, both to learn about the substance of these texts but also to gain insight on how to craft effective, readable historical writing. Students will learn how to use archival materials, practice critically analyzing historical texts, and participate in the discussion, debate, and consensus necessary to build a dynamic understanding of the past. Instructor: Rand.
HPS/Pl 136. Happiness and the Good Life. 9 units (3-0-6): first term. This course will critically examine the emerging science of happiness and positive psychology, its philosophical assumptions, methodology, and its role in framing social policy and practice. Topics to be addressed include: the relation between happiness as subjective well-being or life satisfaction and philosophical visions of the good life; the relation between happiness and virtue; the causes of happiness and the role of life experience; happiness and economic notions of human welfare, attempts to measure happiness, and the prospect for an economics of happiness; happiness as a brain state and whether brain science can illuminate the nature of happiness; mental illness and psychiatry in light of positive psychology. Instructor: Quartz.
HPS/Pl 138. Human Nature and Society. 9 units (3-0-6): first term. This course will investigate how assumptions about human nature shape political philosophy, social institutions, and social policy. The course will begin with a historical perspective, examining the work of such political philosophers as Plato, Locke, Rousseau, and Marx, along with such psychologists as Freud and Skinner. Against this historical perspective, it will then turn to examine contemporary views on human nature from cognitive neuroscience and evolutionary psychology and explore their potential implications for political philosophy and social policy. Among topics to be discussed will be the nature of human sociality and cooperation; economic systems and assumptions regarding production and consumption; and propaganda, marketing, and manipulation. Not offered 2021-2022. Instructor: Quartz.
HPS/Pl 139. Human Nature, Welfare, & Sustainability. 9 units (3-0-6): first term. Policy makers since at least the time of Jeremy Bentham have argued that welfare maximization ought to be the goal of social policy. When this includes perfectionist notions of realizing one's capacities, economic prosperity, prosocial norms, and democratization have all coincided as key drivers of human development. Although the UN 2030 Agenda for Sustainable Development envisions worldwide inclusive and sustainable economic growth, there is substantial debate regarding the extent to which sustainability and economic growth are compatible. This course will critically examine the links between human welfare, economic growth, and material culture to better understand why economic growth and welfare have been taken to be intertwined - and the extent to which they could be decoupled. Our starting point will be the Brundtland report, its conception of welfare based on human needs, and subsequent articulations of needs-based theories of human welfare, including evolutionary and biological accounts that include social comparison processes such as esteem, status, and recognition. This will provide us with a theoretical framework for investigating the role of material culture in satisfying these needs and whether they may be satisfied by less resource-intense routes. Instructor: Quartz.
H/HPS 153. Inequality and Environment. 9 units (3-0-6): first term. This seminar introduces students to the history of environmental inequality, environmental racism, and environmental justice. Human bodies are inescapably enmeshed in our environments: human health and environmental health are inseparable. But environmental burdens and benefits are distributed unevenly along lines of race, gender, class, and nationality. We will examine local, national, and transnational case studies to understand the historical development of environmental inequalities and movements for environmental justice. We will consider different methods for studying environmental injustice and the politics of environmental knowledge. Instructor: LeBlanc.
H/HPS 154. Feminist Science Studies. 9 units (3-0-6): second term. This seminar offers an introduction to scholarship on gender and science. Feminist science studies can seem oxymoronic: the objectivity on which science depends appears opposed to the political commitments feminism implies. Scholars in feminist science studies, however, argue that feminist theory and methods can in fact improve scientific practice. This course will introduce students to the historical development of feminist Science & Technology Studies and what this field tells us about the history of women in science, the history of scientific theories of sex/gender, and the future of feminist research. This reading-heavy class will also include discussions of feminist epistemology, feminist research methods, and new directions in feminist STS. Instructor: LeBlanc.
H/HPS 155. Mortality Crises and Social Change: Epidemic Disease from 1300 to the Present. 9 units (3-0-6): third term. What do we know about epidemics in the past? What did contemporaries understand about these events? How did societies respond to periodic bouts of epidemic disease? This course examines mortality crises and epidemics from the Black Death in the 14th century to the current coronavirus pandemic, with attention given to the impact of epidemics on societies, the ways in which such outbreaks have been understood over time and the kinds of responses they have elicited. We will draw on studies for a range of societies in order to identify patterns across space and time, and to highlight both continuity and change in the ways societies have dealt with contagious diseases. Instructor: Dennison.
H/HPS 156. COVID-19 and Other Pandemics. 9 units (3-0-6): second term. How do we understand the COVID pandemic and the differential responses to it around the globe? What is the best framework for proper understanding? Science, history, politics, culture? Special attention will be given to the state of medical science today and in the past, the understanding of ethology, transmission, and symptoms; the role of scientists, physicians, and "quacks"; the persistence and change in the forms of fear, superstition, and misinformation across time. Not offered 2021-2022. Instructor: Kormos-Buchwald.
HPS/H 157. What is History of Technology?. 9 units (3-0-6): first term. Visible and invisible technologies dominate the present, deeply impacting our personal, social and political lives. This advanced class focuses on technology's role at the intersection of science, politics and culture, primarily in Western Europe and the United States. We will examine the histories of selected technologies (rocketry, computing, robotics); the circulation of knowledge and the creation of networks (transportation, communication, energy, surveillance); real and imagined infrastructural mega-projects (Suez Canal, Atlantropa, Channel tunnel, Transrapid, Iridium); and the role of experts and technocratic elites. As the class combines the discussion of competing methodologies with the reading of field-defining classics, students will get to know a thriving area of historical research with particular relevance to future scientists and engineers. Instructor: Geppert.
HPS/H 158. From World to Earth: Spaceflight and the Making of a Planet. 9 units (3-0-6): second term. Are we living in a 'Second Space Age'? Framed by wide-ranging debates on scale, temporality, planetization and the Anthropocene, this advanced course charts the making of planet Earth from the 1940s through the present. Individual sessions will be devoted to pertinent philosophical conceptions (biosphere, noösphere, Gaia); the visualized and photographed view of Earth from above (Small Steps, Whole Earth, Earthrise, Blue Marble, Blue Dot); the genealogy of space stations and space colonies (space mirrors, Salyut, Skylab, O'Neill, Spacelab, ISS); reconnaissance, navigation and surveillance systems (Corona, GPS, BeiDou, Galileo); space-based communication infrastructures (Intelsat, Telstar, Iridium); as well as the role of technocelebrities and astropreneurs. A field trip forms part of this class. Instructor: Geppert.
HPS/H 160. Einstein and His Generation: The History of Modern Physical Sciences. 9 units (3-0-6): third term. An exploration of the most significant scientific developments in the physical sciences, structured around the life and work of Albert Einstein (1879-1955), with particular emphasis on the new theories of radiation, the structure of matter, relativity, and quantum mechanics. While using original Einstein manuscripts, notebooks, scientific papers, and personal correspondence, we shall also study how experimental and theoretical work in the sciences was carried out; scientific education and career patterns; personal, political, cultural, and sociological dimensions of science. Instructor: Kormos-Buchwald.
HPS/H 162. Social Studies of Science. 9 units (3-0-6): third term. A comparative, multidisciplinary course that examines the practice of science in a variety of locales, using methods from the history, sociology, and anthropology of scientific knowledge. Topics covered include the high-energy particle laboratory as compared with a biological one; Western as compared to non-Western scientific reasoning; the use of visualization techniques in science from their inception to virtual reality; gender in science; and other topics. Instructor: Feingold.
VC/H/HPS 163. Science on Screen. 9 units (3-0-6): second term. Many of our ideas about who scientists are and what they do have been formed through media consumption - especially from the movies. This course examines how our ideas about science have been constructed at the movies and on television, and how science and cinema, their histories, philosophies, and visual cultures, are interconnected. Instructor: Shell.
VC/H/HPS 164. Fashion and Waste. 9 units (3-0-6): second term. Before the Industrial Revolution, new clothes were few and far between. By the early 1800s, new industrial recycling processes enabled wool rags to be reprocessed into new suits, and for the first time the working class gained access to 'Sunday finery.' Dressing better meant a chance at increased social mobility. Today we take for granted fast fashion and disposable clothing. This course examines the complex interrelationship among history, technology, and the ways in which we construct our own identities through clothing; visual, textile and other material culture sources will be front and center. Students will dig into their own closets, memories, and dreams. Not offered 2021-2022. Instructor: Shell.
HPS/Pl 165. Selected Topics in Philosophy of Science. 9 units (3-0-6): offered by announcement. Instructors: Staff, visiting lecturers.
HPS/H 166. Historical Perspectives on the Relations between Science and Religion. 9 units (3-0-6): second term. The course develops a framework for understanding the changing relations between science and religion in Western culture since antiquity. Focus will be on the ways in which the conceptual, personal, and social boundaries between the two domains have been reshaped over the centuries. Questions to be addressed include the extent to which a particular religious doctrine was more or less amenable to scientific work in a given period, how scientific activity carved an autonomous domain, and the roles played by scientific activity in the overall process of secularization. Instructor: Feingold.
HPS/H 167. Experimenting with History/Historic Experiment. 9 units (3-0-6): third term. Prerequisites: Ph 1 abc, and Ph 2 abc (may be taken concurrently). This course uses a combination of lectures with hands-on laboratory work to bring out the methods, techniques, and knowledge that were involved in building and conducting historical experiments. We will connect our laboratory work with the debates and claims made by the original discoverers, asking such questions as how experimental facts have been connected to theories, how anomalies arise and are handled, and what sorts of conditions make historically for good data. Typical experiments might include investigations of refraction, laws of electric force, interference of polarized light, electromagnetic induction, or resonating circuits and electric waves. We will reconstruct instrumentation and experimental apparatus based on a close reading of original sources. Instructor: Buchwald.
HPS/H 168. History of Electromagnetism and Heat Science. 9 units (3-0-6): third term. Prerequisites: Ph 1 abc, and Ph 2 abc (may be taken concurrently). This course covers the development of electromagnetism and thermal science from its beginnings in the early 18th century through the early 20th century. Topics covered include electrostatics, magnetostatics, electrodynamics, Maxwell's field theory, the first and second laws of thermodynamics, and statistical mechanics as well as related experimental discoveries. Not offered 2021-2022. Instructor: Buchwald.
HPS/H 169. Selected Topics in the History of Science and Technology. 9 units (3-0-6): . Instructors: Staff, visiting lecturers.
HPS/H 170. History of Light from Antiquity to the 20th Century. 9 units (3-0-6): second, third terms. Prerequisites: Ph 1 abc, and Ph 2 abc (may be taken concurrently). A study of the experimental, mathematical, and theoretical developments concerning light, from the time of Ptolemy in the 2nd century A.D. to the production of electromagnetic optics in the 20th century. Not offered 2021-2022. Instructor: Buchwald.
HPS/H 171. History of Mechanics from Galileo through Euler. 9 units (3-0-6): . Prerequisites: Ph 1 abc, and Ph 2 abc (may be taken concurrently). This course covers developments in mechanics, as well as related aspects of mathematics and models of nature, from just before the time of Galileo through the middle of the 18th century, which saw the creation of fluid and rotational dynamics in the hands of Euler and others. Not offered 2021-2022.
HPS/H 172. History of Mathematics: A Global View with Close-ups. 9 units (3-0-6): offered by announcement. The course will provide students with a brief yet adequate survey of the history of mathematics, characterizing the main developments and placing these in their chronological, cultural, and scientific contexts. A more detailed study of a few themes, such as Archimedes' approach to infinite processes, the changing meanings of "analysis" in mathematics, Descartes' analytic geometry, and the axiomatization of geometry c. 1900; students' input in the choice of these themes will be welcomed. Not offered 2021-2022.
HPS/H 173. Carving Nature's Joints: Histories of Nature's Order. 9 units (3-0-6): second term. In Plato's Phaedrus, Socrates famously described the virtues of two ways of looking at the world. The first entailed "seeing together things that are scattered about everywhere and collecting them into one kind," while the second was the skill "to cut up each kind according to its species along its natural joints, and to try not to splinter any part, as a bad butcher might do." In a similar sentiment, Darwin wrote in 1857, "It is good to have hair-splitters and lumpers." How have scientists and laypeople perceived similarities and differences in the living world? How have they divided nature into distinct kinds and individuals? How have they distinguished between parts and wholes? Where have they positioned human beings within nature's order? What were the consequences of finding different kinds of order in nature? This course explores these and related questions historically. We will consider different approaches to making sense of nature, and how a multitude of perspectives have been brought to bear on this ordering project. Topics covered include taxonomy and classification, race science and scientific racism, gender and sex differences, disease categories and immune selfhood, and symbioses and biogeochemical cycles. Instructor: Kollmer.
HPS/H 174. Vital Instruments: Biotechnology in Global Perspective. 9 units (3-0-6): third term. Humans excel at using other organisms, including other humans, as means to ends. From the beginnings of agriculture, our species has cultivated crops, livestock, and microbial fermenters as living technologies of production. In modern industrial economies, human uses of life have undergone radical changes, as have the values humans assigned different forms of life. Agriculture underwent rationalization and intensification, increasing yields many times over. Scaled-up fermentation techniques served to preserve food, manufacture drugs, and process wastes. In vitro fertilization and somatic cell nuclear transfer permitted dramatic interventions in sexual reproduction. This course will explore these and other histories of biotechnology across different temporal, geographic, and cultural contexts, paying special attention to the ambivalent relationships that arose between user and used in such instrumentalizations of life. Instructor: Kollmer.
HPS/H 175. Matter, Motion, and Force: Physical Astronomy from Ptolemy to Newton. 9 units (3-0-6): second term. The course will examine how elements of knowledge that evolved against significantly different cultural and religious backgrounds motivated the great scientific revolution of the 17th century. Not offered 2021-2022.
HPS/H 176. The Occult Origins of Modern Science: Alchemy, Astrology, and Magic. 9 units (3-0-6): first term. Modern science is often described as a rational, empirical, and objective search for truth about nature. But how, when, and why did science come to acquire these qualities? Many scholars look to the exciting developments and discoveries of the sixteenth and seventeenth centuries in Europe-the so-called "Scientific Revolution"-as the defining period for the emergence of modern science. If "modern" science is defined in these terms, then "premodern" science must have looked more like pseudo-science, superstition, or myth. However, that is far from the truth. In this course, we'll work to uncover the role that the occult sciences, including alchemy, astrology, and magic, played in the formation of modern science. Our studies of the occult sciences will force us to think more deeply about what distinguishes modern science from the occult sciences, and to question why their role in the development of modern science has also been obscured. Instructor: Gaida.
HPS/H 180. Forbidden Knowledge. 9 units (3-0-6): first term. Why does the notion of freedom of knowledge and teaching in science and engineering matter? What kinds of restrictions have been placed on scientists and engineers, their publications and institutions? Who restrained scientific and engineering knowledge of what sorts; for what reasons; and how successfully? These questions will be addressed by exploring the strategies developed by the U.S. research community to protect the international circulation of knowledge after World War II, when scientific freedom and the export of technical data had to be balanced with the needs of national security. Case studies will include the atomic bomb, the semiconductor industry in the 1970s and space technologies, notably rockets/missiles, in the 1990s. The threat to U.S. economics and military security posed by the Soviet Union in the Cold War, and by China today, has transformed the practice of research in university and in industry alike building new walls around the production and circulation of knowledge to affirm national sovereignty that is, all the while, being undermined by the global circulation of trained scientists and engineers. Not offered 2021-2022. Instructor: Faculty.
H/HPS/VC 185. Angels and Monsters: Cosmology, Anthropology, and the Ends of the World. 9 units (3-0-6): second term. This course explores late medieval European understandings of the origins, structure, and workings of the cosmos in the realms of theology, physics, astronomy, astrology, magic, and medicine. Attention is given to the position of humans as cultural creatures at the intersection of nature and spirit; as well as to the place of Christian Europeans in relation to non-Christians and other categories of outsiders within and beyond Europe. We will examine the knowledge system that anticipated racializing theories in the West. Instructor: Wey-Gomez.
H/HPS/VC 186. From Plato to Pluto: Maps, Exploration and Culture from Antiquity to the Present. 9 units (3-0-6): second term. This course covers a broad range of topics in the history of maps and exploration from Antiquity to the present. These topics range from the earliest visualizations of earth and space in the Classical world to contemporary techniques in interplanetary navigation. By way of maps, students will explore various ways in which different cultures have conceptualized and navigated earth and space. While maps emulate the world as perceived by the human eye, they, in fact, comprise a set of observations and perceptions of the relationship between bodies in space and time. Thus, students will study maps, and the exploration they enable, as windows to the cultures that have produced them, not only as scientific and technical artifacts to measure and navigate our world. Not offered 2021-2022. Instructors: Ceva, Wey-Gomez.

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