Search Results
Your search for courses · during 25FA, 26WI, 26SP · tagged with CGSC Elective · returned 30 results
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BIOL 365 Seminar: Topics in Neuroscience 6 credits
We will focus on recent advances in neuroscience. All areas of neuroscience (cellular/molecular, developmental, systems, cognitive, and disease) will be considered. Classical or foundational papers will be used to provide background.
Waitlist only
- Winter 2026
- No Exploration QRE, Quantitative Reasoning
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Student has completed the following courses: BIOL 125 with a grade of C- or better or received a score of 5 or better on the Biology AP exam or received a score of 6 or better on the Biology IB exam or received a Carleton Biology 125 Requisite Equivalency or completed Biology A Level Test 1 with a grade of B or better AND BIOL 126 with a grade of C- or better or received a Carleton Biology 126 Requisite Equivalency or completed Biology A Level Test 2 with a grade of B or better.
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CGSC 100 Cognitive Development in Childhood 6 credits
This Argument and Inquiry seminar will focus on the cognitive changes experienced by children in the preschool and elementary school years, in such realms as perception, attention, memory, thinking, decision-making, knowledge representation, and the acquisition of academic skills. Weekly observation at local day care centers or elementary schools will be a required course component.
Held for new first year students
- Fall 2025
- AI/WR1, Argument & Inquiry/WR1
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Student is a member of the First Year First Term class level cohort. Students are only allowed to register for one A&I course at a time. If a student wishes to change the A&I course they are enrolled in they must DROP the enrolled course and then ADD the new course. Please see our Workday guides Drop or 'Late' Drop a Course and Register or Waitlist for a Course Directly from the Course Listing for more information.
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CGSC 100 Living with Artificial Intelligence 6 credits
This A&I course is about artificial intelligence (AI) and its place in our lives. We will spend time wondering about how AI systems work and about how we use them. This will involve asking big questions, identifying puzzles and misinformation, and spending a lot of time thinking about robots. Doing so will involve engaging with scientific research, news articles, comics, and other forms of popular media. The primary skills this class focuses on are critical news literacy, cooperative problem solving, writing, editing, and re-writing.
Held for new first year students
- Fall 2025
- AI/WR1, Argument & Inquiry/WR1
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Student is a member of the First Year First Term class level cohort. Students are only allowed to register for one A&I course at a time. If a student wishes to change the A&I course they are enrolled in they must DROP the enrolled course and then ADD the new course. Please see our Workday guides Drop or 'Late' Drop a Course and Register or Waitlist for a Course Directly from the Course Listing for more information.
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CS 254 Computability and Complexity 6 credits
An introduction to the theory of computation. What problems can and cannot be solved efficiently by computers? What problems cannot be solved by computers, period? Topics include formal models of computation, including finite-state automata, pushdown automata, and Turing machines; formal languages, including regular expressions and context-free grammars; computability and uncomputability; and computational complexity, particularly NP-completeness.
- Fall 2025, Winter 2026, Spring 2026
- FSR, Formal or Statistical Reasoning
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Student has completed any of the following course(s): CS 200 with a grade of C- or better or CS 201 with a grade of C- or better or received a Carleton Computer Science 200 Requisite Equivalency AND CS 202 with a grade of C- or better or received a Carleton Computer Science 202 Requisite Equivalency or MATH 236 with a grade of C- or better or received a Carleton Math 236 Requisite Equivalency. MATH 236 will be accepted in lieu of CS 202.
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CS 254.01 Winter 2026
- Faculty:Josh Davis 🏫 👤
- Size:28
- M, WHulings 316 1:50pm-3:00pm
- FHulings 316 2:20pm-3:20pm
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22 seats held for CS Match until the day after First Year priority registration.
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CS 254.01 Spring 2026
- Faculty:Chelsey Edge 🏫 👤
- Size:28
- M, WLanguage & Dining Center 104 12:30pm-1:40pm
- FLanguage & Dining Center 104 1:10pm-2:10pm
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CS 254.02 Spring 2026
- Faculty:Anna Rafferty 🏫 👤
- Size:28
- M, WLeighton 305 9:50am-11:00am
- FLeighton 305 9:40am-10:40am
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CS 301 History of Computing in England Program: History of Computing 6 credits
In the mid-1800s, Charles Babbage’s analytical engine, inspired by programmable looms, was the first conception of an automated programmable computing device. A century later, British researchers built some of the first physical computers—particularly WWII-era code-breaking work, and programmable machines developed immediately after the war. We will explore those two eras, through historical writings (including Babbage and Ada Lovelace, who wrote programs for the analytical engine, and Alan Turing) and visits to relevant museums and archives. We will also study some of the more recent history of computing, particularly the major advances in the 1960s and 1970s.
Participation in OCS History of Computing in England program.
- Fall 2025
- FSR, Formal or Statistical Reasoning
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Acceptance in the Carleton OCS History of Computing in England program.
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CS 314* Data Visualization (*=Junior Seminar) 6 credits
Though the wealth of data surrounding us can be overwhelming, we have evolved incredible tools for finding patterns in large amounts of information: our eyes! Data visualization is concerned with turning information into pictures to better communicate patterns or discover new insights, drawing from computer graphics, human-computer interaction, design, and perceptual psychology. In this junior seminar, we will learn different ways in which data can be expressed visually and which methods work best for which tasks, with a particular focus on technical communication. Using this knowledge, we will critique existing visualizations as well as design and build new ones.
- Spring 2026
- FSR, Formal or Statistical Reasoning QRE, Quantitative Reasoning
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Student has completed any of the following course(s): CS 200 or CS 201 with a grade of C- or better or received a Carleton Computer Science 201 or better Requisite Equivalency. Not open to students who have taken CS 314.
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CS 314*.01 Spring 2026
- Faculty:Eric Alexander 🏫 👤
- Size:16
- M, WAnderson Hall 223 12:30pm-1:40pm
- FAnderson Hall 223 1:10pm-2:10pm
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CS 320 Machine Learning 6 credits
What does it mean for a machine to learn? Much of modern machine learning focuses on identifying patterns in large datasets and using these patterns to make predictions about the future. Machine learning has impacted a diverse array of applications and fields, from scientific discovery to healthcare to education. In this artificial intelligence-related course, we’ll both explore a variety of machine learning algorithms in different application areas, taking both theoretical and practical perspectives, and discuss impacts and ethical implications of machine learning more broadly. Topics may vary, but typically focus on regression and classification algorithms, including neural networks.
X seats held for CS Match until the day after X priority registration.
- Winter 2026
- FSR, Formal or Statistical Reasoning
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Student has completed any of the following course(s): CS 200 with a grade of C- or better or CS 201 with a grade of C- or better or received a Carleton Computer Science 200 Requisite Equivalency AND CS 202 with a grade of C- or better or received a Carleton Computer Science 202 Requisite Equivalency or MATH 236 with a grade of C- or better or received a Carleton Math 236 Requisite Equivalency. MATH 236 will be accepted in lieu of CS 202.
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CS 320.01 Winter 2026
- Faculty:Anna Meyer 🏫 👤
- Size:28
- M, WLanguage & Dining Center 244 9:50am-11:00am
- FLanguage & Dining Center 244 9:40am-10:40am
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28 seats held for CS Match until the day after Senior priority registration.
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CS 322 Natural Language Processing 6 credits
Advances like deep learning and large language models have led to computer programs that seem to converse intelligently with people. But how do these programs work, and do they really understand language? In this course, we’ll explore techniques that aim to enable computers to interpret and respond appropriately to ideas expressed using natural languages (such as Chinese or English) as opposed to formal languages (such as Python or C). Topics may include classical and modern approaches, and varying applications, such as machine translation, semantic analysis, and question answering.
- Fall 2025
- FSR, Formal or Statistical Reasoning QRE, Quantitative Reasoning
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Student has completed any of the following course(s): CS 200 with a grade of C- or better or CS 201 with a grade of C- or better or received a Carleton Computer Science 200 Requisite Equivalency AND CS 202 with a grade of C- or better or received a Carleton Computer Science 202 Requisite Equivalency or MATH 236 with a grade of C- or better or received a Carleton Math 236 Requisite Equivalency. MATH 236 will be accepted in lieu of CS 202.
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CS 322.01 Fall 2025
- Faculty:Anna Rafferty 🏫 👤
- Size:34
- M, WAnderson Hall 329 9:50am-11:00am
- FAnderson Hall 329 9:40am-10:40am
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17 seats held for CS Match until the day after rising junior priority registration.
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CS 344 Human-Computer Interaction 6 credits
The field of human-computer interaction addresses two fundamental questions: how do people interact with technology, and how can technology enhance the human experience? In this course, we will explore technology through the lens of the end user: how can we design effective, aesthetically pleasing technology, particularly user interfaces, to satisfy user needs and improve the human condition? How do people react to technology and learn to use technology? What are the social, societal, health, and ethical implications of technology? The course will focus on design methodologies, techniques, and processes for developing, testing, and deploying user interfaces.
- Winter 2026
- FSR, Formal or Statistical Reasoning QRE, Quantitative Reasoning
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Student has completed any of the following course(s): CS 200 or CS 201 with a grade of C- or better or received a Carleton Computer Science 201 or better Requisite Equivalency.
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CS 344.01 Winter 2026
- Faculty:Sneha Narayan 🏫 👤
- Size:28
- T, THAnderson Hall 329 1:15pm-3:00pm
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15 seats held for CS Match until the day after Sophomore Only priority registration.
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ECON 265 Game Theory and Economic Applications 6 credits
Game theory is the study of decision making in strategic situations. In this course we will develop tools to help us to analyze a wide variety of settings in which two or more people make choices that jointly affect one another’s well-being. We will discuss many different applications, including negotiations, charitable giving, the division of labor on shared projects, armed conflicts, and the role of education in the job market. Topics covered include pure and mixed-strategy Nash equilibrium, rationalizability, backward induction, repeated games, Bayesian games and level-k reasoning.
- Spring 2026
- QRE, Quantitative Reasoning SI, Social Inquiry
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Student has completed any of the following course(s): ECON 111 with a grade of C- or better or ECON AL (Cambridge A Level Economics) with a grade of B or better or has received a score of 5 on the AP Microeconomics test or a score of 6 or better on the IB Economics test.
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ECON 265.01 Spring 2026
- Faculty:Jonathan Lafky 🏫 👤
- Size:25
- T, THWillis 204 10:10am-11:55am
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ECON 267 Behavioral Economics 6 credits
This course introduces behavioral economics as a complementary approach to traditional economic models of decision making. We will study situations in which the predictions of traditional models can appear to be inconsistent with the choices people actually make, and then ask whether we can improve those models by introducing psychologically plausible assumptions. We will discuss a broad range of behavioral topics, including biases in decision making, risk and time preferences, prospect theory, other-regarding preferences, and the design of experiments.
- Spring 2026
- QRE, Quantitative Reasoning SI, Social Inquiry
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Student has completed any of the following course(s): ECON 110 with a grade of C- or better or received a score of 5 on the Macroeconomics AP exam and ECON 111 with a grade of C- or better or received a score of 5 on the Microeconomics AP exam OR has received a score of 6 or better on the Economics IB exam.
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ECON 267.01 Spring 2026
- Faculty:Jonathan Lafky 🏫 👤
- Size:25
- T, THWillis 204 1:15pm-3:00pm
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EDUC 234 Educational Psychology 6 credits
Human development and learning theories are studied in relation to the teaching-learning process and the sociocultural contexts of schools. Three hours outside of class per week are devoted to observing learning activities in public school elementary and secondary classrooms and working with students.
Extra Time Required: For classroom time in public schools
- Spring 2026
- SI, Social Inquiry
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EDUC 234.01 Spring 2026
- Faculty:Ziye Wen 🏫 👤
- Size:25
- T, THWillis 114 10:10am-11:55am
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Extra Time required for classroom time in public schools
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LING 216 Generative Approaches to Syntax 6 credits
This course has two primary goals: to provide participants with a forum to continue to develop their analytical skills (i.e., to ‘do syntax’), and to acquaint them with generative syntactic theory, especially the Principles and Parameters approach. Participants will sharpen their technological acumen, through weekly problem solving, and engage in independent thinking and analysis, by means of formally proposing novel syntactic analyses for linguistic phenomena. By the conclusion of the course, participants will be prepared to read and critically evaluate primary literature couched within this theoretical framework.
- Winter 2026
- FSR, Formal or Statistical Reasoning
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Student has completed and of the following course(s): LING 115 with grade of C- or better.
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LING 216.01 Winter 2026
- Faculty:Catherine Fortin 🏫 👤
- Size:25
- T, THWeitz Center 233 10:10am-11:55am
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LING 217 Phonetics and Phonology 6 credits
Although no two utterances are ever exactly the same, we humans don’t function like tape recorders; we overlook distinctions to which mechanical recording devices are sensitive, and we “hear” contrasts which are objectively not there. What we (think we) hear is determined by the sound system of the language we speak. This course examines the sound systems of human languages, focusing on how speech sounds are produced and perceived, and how these units come to be organized into a systematic network in the minds of speakers of languages.
- Fall 2025
- FSR, Formal or Statistical Reasoning
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Student has completed any of the following course(s): One 100-level LING course with grade of C- or better.
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LING 217.01 Fall 2025
- Faculty:Yoolim Kim 🏫 👤
- Size:25
- T, THWillis 211 10:10am-11:55am
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LING 280 Field Methods in Linguistics 6 credits
This course will introduce students to techniques of linguistic research and analysis through direct work with a native speaker of a language not taught at Carleton. Students will learn techniques for eliciting, organizing, describing, and analyzing data in an ethically responsible and scientifically rigorous manner. Our goal is to develop a description of the language–primarily, aspects of its phonology, morphology, and syntax–through working exclusively with a native speaker. Each student will investigate some aspect of the language in depth, culminating in a class presentation and research report.
- Spring 2026
- LS, Science with Lab
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Student has completed any of the following course(s): One 100-level LING course with grade of C- or better.
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LING 280.01 Spring 2026
- Faculty:Catherine Fortin 🏫 👤
- Size:25
- M, WWeitz Center 233 1:50pm-3:00pm
- FWeitz Center 233 2:20pm-3:20pm
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LING 340 Topics in Semantics 6 credits
Semantics is the study of what words and constructions mean in a language and how speakers come to actually interpret those meanings. In this course we explore several objects of inquiry within the field of semantics, including compositional semantics (i.e., the computation of meaning over syntactic structures), lexical semantics (with a particular emphasis on verb meanings), and how the various interpretations of ambiguous constructions are derived.
- Spring 2026
- FSR, Formal or Statistical Reasoning
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LING 350 Invented Languages: From Toki Pona to Na’vi 6 credits
Invented, or artificial, languages have come to be for many reasons, whether a desire to improve existing languages, an effort to unite the world, or a need to explore how languages are learned. But, the majority have failed. Why? What can we learn about natural language from invented languages? This class investigates the numerous underpinnings of various invented languages, from 17th century Real Character, to Toki Pona, to Solresol, to more recent creations like Na’vi. We also examine the successful ‘reinvention’ of Modern Hebrew. Students will invent their own language and formally present weekly aspects of their developing grammar.
- Winter 2026
- SI, Social Inquiry
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Student has completed any of the following course(s): LING 216 or LING 217 with grade of C- or better.
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LING 350.01 Winter 2026
- Faculty:Yoolim Kim 🏫 👤
- Size:15
- M, WWillis 204 12:30pm-1:40pm
- FWillis 204 1:10pm-2:10pm
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NEUR 127 Foundations in Neuroscience and Lab 6 credits
This course is an introduction to basic neural function. Topics include neural transmission, development of the nervous system, anatomy, sensory systems, learning and the corresponding change in the brain, and the role of the nervous system in behavior. Team-based learning will be used to understand the experiments that shape current knowledge.
During registration, students will register for both the lecture and a corresponding lab section, which will appear on the student's academic transcript in a single entry.
- Fall 2025, Winter 2026
- LS, Science with Lab QRE, Quantitative Reasoning
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NEUR 127.01 Fall 2025
- Faculty:Joel Tripp 🏫 👤
- T, THWeitz Center 235 10:10am-11:55am
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NEUR 127.52 Fall 2025
- Faculty:Joel Tripp 🏫 👤
- Size:16
- THulings B04 1:00pm-5:00pm
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NEUR 127.53 Fall 2025
- Faculty:Joel Tripp 🏫 👤
- Size:16
- WHulings B04 2:00pm-6:00pm
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NEUR 127.01 Winter 2026
- Faculty:Sarah Meerts 🏫 👤 · Eric Hoopfer 🏫 👤
- T, THAnderson Hall 121 10:10am-11:55am
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NEUR 127.52 Winter 2026
- Faculty:Sarah Meerts 🏫 👤 · Eric Hoopfer 🏫 👤
- Size:14
- THulings B04 1:00pm-5:00pm
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NEUR 127.53 Winter 2026
- Faculty:Sarah Meerts 🏫 👤 · Eric Hoopfer 🏫 👤
- Size:16
- WHulings B04 2:00pm-6:00pm
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NEUR 238 Neurons, Circuits and Behavior 6 credits
Neurons are the building blocks of the nervous system. Molecular and cellular neuroscience seeks to understand the fundamental principles that govern how neurons function, how they communicate with each other, and how they assemble into circuits that generate behavior. This course focuses on the molecular and cellular basis of nervous system function from the level of genes and molecules to neural circuits and behavior. We will take an integrative approach to examine the genetic, molecular and cellular mechanisms that underlie neuronal communication, the molecular basis of sensation and innate behaviors, neural plasticity, and nervous system disorders. This course will emphasize the experimental evidence and techniques that have built our understanding of the molecular and cellular basis of behavior through team-based learning, analysis of primary literature papers and laboratory experimentation. A grade of C- or better must be earned in both Neuroscience 238 and 239 to satisfy the LS requirement.
Requires concurrent registration in NEUR 239.
Waitlist Information: If you would like to waitlist for a NEUR 239 lab section, you will need to UNCHECK the box for the lecture section, NEUR 238, prior to completing the waitlist process. If you are offered a seat in the lab, you will be able to register for the lecture at the same time.
- Spring 2026
- LS, Science with Lab QRE, Quantitative Reasoning
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Student must have completed and of the following course(s): NEUR 127 or BIOL 125 with grade of C- or better or received a score of 5 on the Biology AP exam or received a score of 6 or better on the Biology IB exam or equivalent.
- NEUR 239: Neurons, Circuits and Behavior Lab
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NEUR 238.01 Spring 2026
- Faculty:Eric Hoopfer 🏫 👤
- T, THHulings 316 10:10am-11:55am
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PHIL 100 Science, Faith and Rationality 6 credits
This seminar will introduce the student to the study of philosophy through a consideration of various epistemic and metaphysical issues surrounding science and religion. What distinguishes scientific inquiry from other areas of inquiry: Its subject matter, its method of inquiry, or perhaps both? How does scientific belief differ from religious belief, in particular? Is the scientist committed to substantive metaphysical assumptions? If so, what role do these assumptions play in scientific investigation and how do they differ from religious dogma (if they do)? Our exploration of these questions will involve the consideration of both classic and contemporary philosophical texts.
Held for new first year students
- Fall 2025
- AI/WR1, Argument & Inquiry/WR1
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Student is a member of the First Year First Term class level cohort. Students are only allowed to register for one A&I course at a time. If a student wishes to change the A&I course they are enrolled in they must DROP the enrolled course and then ADD the new course. Please see our Workday guides Drop or 'Late' Drop a Course and Register or Waitlist for a Course Directly from the Course Listing for more information.
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PHIL 100.02 Fall 2025
- Faculty:Jason Decker 🏫 👤
- Size:15
- T, THLeighton 301 1:15pm-3:00pm
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PHIL 112 Intelligence, Agency and Autonomous Machines 6 credits
What exactly is artificial intelligence (AI)? We will engage this question by reading foundational texts in the philosophy of AI to clarify what things in the world are, or should be, classified as “AI”. This foundation will help us think about what it might mean to be autonomous, intelligent, or agential. We will consider some of the conditions that might lead us to believe certain technologies are (or could be) moral agents or moral patients, and whether (or to what extent) these conditions bear on the AI systems of the present and those of the future.
- Fall 2025, Winter 2026
- HI, Humanistic Inquiry WR2 Writing Requirement 2
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PHIL 112.01 Fall 2025
- Faculty:Jessie Hall 🏫 👤
- Size:25
- M, WLeighton 304 11:10am-12:20pm
- FLeighton 304 12:00pm-1:00pm
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PHIL 112.01 Winter 2026
- Faculty:Jessie Hall 🏫 👤
- Size:25
- T, THWeitz Center 230 10:10am-11:55am
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PHIL 203 Bias, Belief, Community, Emotion 6 credits
What is important to individuals, how they see themselves and others, and the kind of projects they pursue are shaped by traditional and moral frameworks they didn’t choose. Individual selves are encumbered by their social environments and, in this sense, always ‘biased’, but some forms of bias are pernicious because they produce patterns of inter and intra-group domination and oppression. We will explore various forms of intersubjectivity and its asymmetries through readings in social ontology and social epistemology that theorize the construction of group and individual beliefs and identities in the context of the social world they engender.
Extra time
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PHIL 203.01 Winter 2026
- Faculty:Anna Moltchanova 🏫 👤
- Size:25
- T, THLeighton 426 3:10pm-4:55pm
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PHIL 225 Philosophy of Mind 6 credits
What is the relationship between the mind and the brain? Are they identical? Or is there mental “stuff” in addition to physical stuff? Or perhaps some physical stuff has irreducibly mental properties? These, and related questions, are explored by philosophers under the heading of “the mind-body problem.” In this course, we will start with these questions, looking at classical and contemporary defenses of both materialism and dualism. This investigation will lead us to other important questions such as: What is the nature of mental representation, what is consciousness, and could a robot have conscious states and mental representations?
- Spring 2026
- HI, Humanistic Inquiry WR2 Writing Requirement 2
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PHIL 225.01 Spring 2026
- Faculty:Jason Decker 🏫 👤
- Size:25
- M, WLeighton 305 1:50pm-3:00pm
- FLeighton 305 2:20pm-3:20pm
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PHIL 319 Self-Knowledge 6 credits
Inscribed above the entry of Apollo’s temple at Delphi is the imperative “Know Thyself!” But what does it mean to know yourself and how do you go about acquiring such knowledge? Is it fundamentally the same as coming to know other people? Or is self-knowledge fundamentally different – both in terms of content and how we come to acquire it – from other kinds of knowledge (including knowledge of other people)? Finally, how does self knowledge relate to questions about agency? Can it sometimes be rational to decide to do something that one's self-knowledge suggests one is unlikely to succeed in doing? This course will explore all these issues by reading Richard Moran’s Authority and Estrangement and/or Barislav Marusic’s Evidence and Agency: Norms of Belief for Promising and Resolving.
- Fall 2025
- HI, Humanistic Inquiry WR2 Writing Requirement 2
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Student has completed any of the following course(s): One Philosophy course excluding Independent Studies or Directed Research courses with a grade of C- or better.
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PHIL 319.01 Fall 2025
- Faculty:Jason Decker 🏫 👤 · Daniel Groll 🏫 👤
- Size:15
- T, THHasenstab 105 10:10am-11:55am
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PSYC 214 Neuropsychology of Aging 6 credits
With the aging population comes a variety of challenges, including those to cognitive health and decline. Neurodegenerative diseases create various forms of dementia and cause unique problems beyond those that are an outcome of healthy aging. This 200-level course consists of lectures and discussions explore the cognitive, behavioral, and molecular aspects of healthy aging and neurodegenerative disease processes in humans. Cognitive topics include working memory, long term memory, attention, familiarity and recollection, emotion, and social factors that interact with aging. The physiological and cognitive outcomes of neurodegenerative conditions such as Parkinson's disease, Alzheimer's disease, and various types of dementia are compared with the physiology and cognitive decline evident in healthy aging. Students will read primary articles on these topics, and propose a project based on course discussion and interactions with people at senior centers and convalescent centers in Northfield.
It is recommended that students enroll concurrently in PSYC 215. A grade of C- or better must be earned in both PSYC 214 and 215 to earn the LS requirement.
Recommend Preparation: PSYC 110.
This course is not open to students who have received credit for PSYC 367.
- Fall 2025
- WR2 Writing Requirement 2
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Not open to students who have previously taken PSYC 367.
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PSYC 214.01 Fall 2025
- Faculty:Julie Neiworth 🏫 👤
- Size:32
- M, WAnderson Hall 121 9:50am-11:00am
- FAnderson Hall 121 9:40am-10:40am
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PSYC 220 Sensation and Perception 6 credits
We will address the question of how humans acquire information from the world to support action, learning, belief, choice, and the host of additional mental states that comprise the subject matter of psychology. In other words “How do we get the outside inside?” We will initially consider peripheral anatomical structures (e.g., the eye) and proceed through intermediate levels of sensory coding and transmission to cover the brain regions associated with each of the major senses. Readings will include primary sources and a text. In addition to exams and papers, students will conduct an investigation into an area of personal interest. A grade of C- or better must be earned in both Psychology 220 and 221 to satisfy the LS requirement.
- Winter 2026
- LS, Science with Lab
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Student has completed any of the following course(s): PSYC 110 with a grade of C- or better or received a score of 4 or better on the Psychology AP exam or received a score of 6 or better on the Psychology IB exam.
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PSYC 220.01 Winter 2026
- Faculty:Violet Brown 🏫 👤
- Size:32
- M, WAnderson Hall 329 12:30pm-1:40pm
- FAnderson Hall 329 1:10pm-2:10pm
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PSYC 238 Memory Processes 6 credits
Memory is involved in nearly every human activity: We use our memory not only when we reminisce about the past, but when we study for our exams, talk to our friends, and tie our shoes. This course explores the psychological science of human memory. We will examine different types of memory, how we encode new memories and retrieve old ones, how to ensure a memory is never forgotten, and how to implant a false memory in someone else. In doing so we will look at both old and new research, and discuss how memory research can be applied to some real world environments, such as courtrooms and classrooms. By the end of the course you will be familiar with the major issues in the field of memory research and be able to evaluate the quality of the studies used as evidence in these debates.
- Fall 2025
- SI, Social Inquiry
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Student has completed any of the following course(s): PSYC 110 with a grade of C- or better or received a score of 4 or better on the Psychology AP exam or received a score of 6 or better on the Psychology IB exam.
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PSYC 238.01 Fall 2025
- Faculty:Mija Van Der Wege 🏫 👤
- Size:32
- M, WWeitz Center 235 11:10am-12:20pm
- FWeitz Center 235 12:00pm-1:00pm
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PSYC 267 Clinical Neuroscience 6 credits
This course will explore brain disorders with significant psychological manifestations, such as Alzheimer’s disease, anxiety, depression, schizophrenia, and substance abuse, among others. Students will also receive a foundation in brain anatomy, physiology, and chemistry so that they may better understand the biological correlates of these clinical conditions.
- Winter 2026
- No Exploration
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Student has completed any of the following course(s): PSYC 110 with a grade of C- or better or received a score of 4 or better on the Psychology AP exam or received a score of 6 or better on the Psychology IB exam.
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PSYC 267.01 Winter 2026
- Faculty:Lawrence Wichlinski 🏫 👤
- Size:32
- M, WAnderson Hall 323 11:10am-12:20pm
- FAnderson Hall 323 12:00pm-1:00pm
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PSYC 366 Cognitive Neuroscience 6 credits
It should be obvious that every process that goes on in the mind has physiological underpinnings. But, whether we can unlock the secrets of learning, memory, perception, language, decision-making, emotional responding, empathy, morality, social thinking, deception, and manipulation as they are supported by neurons and neural connections is a longstanding and elusive problem in psychology. Contemporary primary source articles are mostly used for this discussion-driven course, but a brief textbook/manual on brain processing is also required. The student should leave the class with a working understanding of brain processes and of contemporary theories of brain processes that may support many mental processes in humans.
- Winter 2026
- QRE, Quantitative Reasoning SI, Social Inquiry
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Student has completed any of the following course(s): PSYC 110 or BIOL 125 or PSYC 216 or NEURO 127 with a grade of C- or better or received a score of 4 or better on the Psychology AP Exam or received a score of 6 or better on the Psychology IB exam or received a score of 5 on the Biology AP exam or received a score of 6 or better on the Biology IB exam.
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PSYC 375 Language and Deception 6 credits
In this course we will examine deception and persuasion in language use. We will take up three main issues. The first is what it means to deceive and how people deceive others through language. What methods do they use, and how do these methods work? The second issue is why people deceive. What purposes do their deceptions serve in court, in advertising, in bureaucracies, in business transactions, and in everyday face-to-face conversation? The third issue is the ethics of deception. Is it legitimate to deceive others, and if so, when and why?
- Spring 2026
- QRE, Quantitative Reasoning SI, Social Inquiry
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Student has completed any of the following course(s): PSYC 232 or CGSC232/PSYC 232 or PSYC 234 or PSYC 238 or CGSC 236 with a grade of C- or better.