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College Catalog 2021-2022 [ARCHIVED CATALOG]
Courses
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Classics |
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CLAS 235 - Elementary Greek II
This two-semester program introduces students to ancient Greek, the language of Greece, Asia Minor, and the Hellenistic world, including several Jewish and early Christian writers. Students will learn the grammar and vocabulary necessary for reading Greek literature and documents of many periods. During the second term, students begin to read extended prose, such as passages from Plato, Xenophon, the New Testament or documentary sources. Students will also participate in tutorials and/or practice labs. Prerequisite(s): CLAS 115 . Alternate fall semesters. (4 Credits)
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CLAS 237 - Intermediate Hebrew I
Hebrew prose selections from the Bible, Dead Sea Scrolls and Rabbinic parables. Translation of texts will be supplemented with grammar review. Students will gain facility with such tools as the lexicon, commentary and critical apparatus and will become familiar with critical trends in contemporary research. Prerequisite(s): or its equivalent. Alternate years. (4 Credits)
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CLAS 241 - Intermediate Arabic I
This course focuses on expanding vocabulary and grammar through simple texts, dialogs and stories. Prerequisite(s): or equivalent. Every year. (4 Credits)
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CLAS 260 - Introduction to Art History I: From Prehistory to the Medieval Period Cross-Listed as ART 160
This course surveys the visual and material culture of Europe, the Middle East and the broader Mediterranean world from prehistory through the late Medieval period, including early Christian, Jewish and Islamic cultures. We consider the artistic and archaeological remains from the Near East, Egypt, the Aegean, Greece, Etruria, Rome, and western Europe from a contextual perspective in order to understand each culture’s ideologies, and the diverse social and artistic purposes for which art and architecture was created and used. (4 Credits)
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CLAS 261 - Intermediate Greek: Prose
This third course in the ancient Greek language sequence involves review of basic grammar and extensive reading in works of ancient prose. Students will build familiarity with forms and vocabulary while gaining confidence as readers and an appreciation for ancient literature. Authors may include Plato, Herodotus, Attic orators, or Lucian. Prerequisite(s): or equivalent. Alternate fall semesters. (4 Credits)
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CLAS 270 - Cultural Resource Management Cross-Listed as ANTH 270
Archaeology in the United States is no longer practiced exclusively by universities and museums. In fact, since the 1970s, the vast majority of archaeological projects undertaken involve individuals employed in either private industry or with the federal or state government. This shift toward cultural resource management (CRM) archaeology transformed the traditional role of archaeology practiced during the late 19th and early 20th centuries. So, what changed? This course explores the role of public archaeology in the United States through an examination of the laws and practices dictating the protection of historic properties, consultation with descendant communities, and the design of archaeological management plans. Occasionally offered. (4 Credits)
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CLAS 283 - Art and Architecture of Ancient Greece and Rome Cross-Listed as ART 283
This course will survey the art and architecture of ancient Greek and Roman worlds from the Bronze Age (ca. 3000 - 1200 BCE) to Late Antiquity (ca. 5th century CE). The class discussions will focus on concepts of design, representation and aesthetics in Greco-Roman art and architecture, and explore the uses of art objects and monuments in daily life, politics, imperialism, religion, burial practices, private rituals and state cults. The course will examine the developments in artistic forms and practices in their social, economic and historical context, taking into consideration the interaction between Greece and Rome, and the influences from contemporary societies such as the Near East and Egypt. Alternate spring semesters. (4 Credits)
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CLAS 294 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (4 Credits)
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CLAS 332 - Intermediate Latin II: Poetry
A course in the poetic literature of the Republican and/or Augustan Ages with concentrated study on one or two authors. Students work toward grammatical and lexical mastery while learning about the forms, styles and cultural aspects of Latin poetry. Authors to be studied may include Plautus, Catullus, Horace, Vergil, or Ovid. May be repeated for credit. Prerequisite(s): or equivalent. Every spring. (4 Credits)
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CLAS 338 - Intermediate Hebrew II
The final semester in the two-year survey of the Hebrew language from ancient to modern. Students will read selections from the Biblical books of poetry such as Ecclesiastes, Song of Songs, and Psalms. The second half of the semester is devoted to modern conversational Hebrew. Prerequisite(s): or equivalent. Alternate years. (4 Credits)
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CLAS 342 - Intermediate Arabic II
This course introduces students to more authentic texts and samples a variety of authors and genres from around the Arab world. Prerequisite(s): or equivalent. Every year. (4 Credits)
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CLAS 345 - Arabic Reading and Translation Cross-Listed as RELI 245
This course aims to improve your Arabic reading and translation skills while introducing you to selected genres of Arabic and Islamic literature. The course will proceed in a workshop format and focus on the comprehension and translation of texts in question. Students will learn to use an Arabic dictionary, expand their vocabulary, deepen their understanding of grammar and syntax, and develop skills in reading manuscripts, navigating Arabic texts, and producing English translations. Prerequisite(s): 3 previous semesters of Arabic language. Every fall. (4 Credits)
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CLAS 362 - Intermediate Greek: Poetry
This fourth course in the ancient Greek language sequence involves extensive reading in works of ancient poetry. Students will work toward mastery of grammar and vocabulary while exploring the formal, artistic and cultural dimensions of poetic composition. Most often readings will be from the Homeric epics (Iliad or Odyssey), but other works may be taught, including tragedy, comedy or lyric. Prerequisite(s): or equivalent. Alternate spring semesters. (4 Credits)
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CLAS 392 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (2 Credits)
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CLAS 394 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (4 Credits)
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CLAS 483 - Advanced Reading in Latin
Students who pursue Latin at the advanced level will study closely one or more works and explore relevant problems in literary or textual criticism, linguistic, social or cultural history, and/or reception. Authors may include Tacitus, Seneca, Apuleius, Juvenal, Martial or others. May be repeated for credit. Prerequisite(s): or equivalent. Alternate years. (4 Credits)
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CLAS 485 - Advanced Arabic
A survey course of Renaissance and classic writers from around the Arab world. We explore social issues, with the focus still on language acquisition. Prerequisite(s): . Every year. (4 Credits)
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CLAS 487 - Advanced Reading in Greek
Students who pursue ancient Greek at the advanced level will study closely one or more works and explore relevant problems in literary or textual criticism, linguistic, social or cultural history, and/or reception. Offered upon consultation with department. Prerequisite(s): or equivalent. (4 Credits)
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CLAS 490 - Senior Seminar
The Senior Seminar caps the experience of being a Classics major. Students in all three tracks (Archaeology, Civilization, and Languages) join together to explore the history of the discipline and its relationship to their own histories and future plans. Students learn about, draft and critique documents useful for their next steps, including resumes, personal statements and cover letters, along with discussing selected readings in a seminar setting. Each student also works with an advisor from the department to develop and execute a major piece of work in their chosen field, Majors who have completed the Senior Seminar have thus executed a substantive independent project and can articulate the place of their Classics major within their personal and professional development. Prerequisite(s): Must be a declared Classics major Every fall. (4 Credits)
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CLAS 494 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (4 Credits)
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CLAS 601 - Tutorial
Prerequisite(s): Permission of instructor and department chair. Every semester. (1 Credits)
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CLAS 602 - Tutorial
Prerequisite(s): Permission of instructor and department chair. Every semester. (2 Credits)
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CLAS 603 - Tutorial
Prerequisite(s): Permission of instructor and department chair. Every semester. (3 Credits)
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CLAS 604 - Tutorial
Prerequisite(s): Permission of instructor and department chair. Every semester. (4 Credits)
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CLAS 611 - Independent Project
Prerequisite(s): Permission of instructor and department chair. Every semester. (1 Credits)
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CLAS 612 - Independent Project
Prerequisite(s): Permission of instructor and department chair. Every semester. (2 Credits)
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CLAS 613 - Independent Project
Prerequisite(s): Permission of instructor and department chair. Every semester. (3 Credits)
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CLAS 614 - Independent Project
Prerequisite(s): Permission of instructor and department chair. Every semester. (4 Credits)
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CLAS 631 - Preceptorship
Prerequisite(s): Permission of instructor. Work with Academic Programs. (1 Credits)
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CLAS 632 - Preceptorship
Prerequisite(s): Permission of instructor. Work with Academic Programs. (2 Credits)
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CLAS 633 - Preceptorship
Prerequisite(s): Permission of instructor. Work with Academic Programs. (3 Credits)
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CLAS 634 - Preceptorship
Prerequisite(s): Permission of instructor. Work with Academic Programs. (4 Credits)
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Computer Science |
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COMP 112 - Introduction to Data Science Cross-Listed as STAT 112
This course provides an introduction to the handling, analysis, and interpretation of the big datasets now routinely being collected in science, commerce, and government. Students achieve facility with a sophisticated, technical computing environment. The course aligns with techniques being used in several courses in the natural and social sciences, statistics, and mathematics. The course is intended to be accessible to all students, regardless of background. Every semester. (4 Credits)
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COMP 120 - Computing and Society
Topics course that introduces students to the field of computing by way of a central theme. Topics vary; offerings include Digital Humanities, Green Computing, and Social Media. Full description given in advance of registration. This course is suitable for students with little or no experience with computing, but it can serve as a starting point for the Computer Science major. Typically offered in the fall as a First Year Course. (4 Credits)
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COMP 123 - Core Concepts in Computer Science
This course introduces the field of computer science, including central concepts such as the design and implementation of algorithms and programs, testing and analyzing programs, the representation of information within the computer, and the role of abstraction and metaphor in computer science. The exploration of these central ideas will draw examples from a range of application areas including multimedia processing, turtle graphics, and text processing. Course work will use the Python programming language. Every semester. (4 Credits)
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COMP 127 - Object-Oriented Programming and Abstraction
What happens as software grows in complexity? How do we break a program into manageable pieces? How do we write readable, maintainable code? This course is an introduction to the building blocks of software design: abstraction, decomposition, and encapsulation. Using object-oriented programming in Java, we will create graphics, games, and simulations, and explore natural language processing. Topics may include: classes, objects, polymorphism, inheritance, testing, refactoring, events, closures, streams, immutability, parallel programming, and version control. The course culminates in a student-designed project. There is a required 1.5 hour laboratory section associated with this course. Prerequisite(s): COMP 123 or permission of instructor. Every semester. (4 Credits)
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COMP 128 - Data Structures
This course familiarizes students with the fundamental data structures in computer science. Using the Java programming language, students will study existing data structure implementations, implement their own data structures, and develop data-intensive applications. The course covers stacks, queues, lists, trees, heaps, hash tables, graphs, and the common algorithms that use these data structures. Students will also receive an introduction to basic complexity analysis (Big-O), learn the time complexity of different data structure operations, and gain experience in calculating the time complexity of programs that use data structures. Prerequisite(s): COMP 127 or permission of instructor. Every semester. (4 Credits)
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COMP 154 - Digital Ethics Cross-Listed as PHIL 225
This course looks at ethical questions connected with the internet as we know it today: an online environment where content is generated and shared through user activities such as blogging, media sharing, social networking, tagging, tweeting, virtual world gaming, wiki developing, and the like. We will start by considering debates over freedom of speech, privacy, surveillance, and intellectual property: issues that pre-exist the development of the Internet, but which because of it have taken on new dimensions. From here we will go on to take up some ethical questions arising from four different domains of activity on the social web: gaming, social networking, blog/wiki developing, and “hacktivism.” In the third part of the course, we will consider broad questions connected to the integration of the Internet with devices other than the personal computer and mobile phone and which open the prospect of a world of integrated networked systems. What are some of the impacts of such integration on our everyday ethical relations with others and on the overall quality of our lives? How does being networked affect the meaning of being human? Offered alternate years. (4 Credits)
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COMP 194 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (4 Credits)
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COMP 221 - Algorithm Design and Analysis
This course offers an in-depth introduction to the design and analysis of algorithms. Students will work with algorithms in pseudocode, and will learn formal and informal methods for analyzing algorithm efficiency and correctness. Topics may include recursion, divide and conquer, dynamic programming, greedy methods, branch and bound, randomized, probabilistic, and parallel algorithms. Application areas include string processing, graphs, geometric problems, and optimization. This course will introduce computability topics including regular expressions, grammars and parsing, automata, nondeterminism, and NP completeness. Prerequisite(s): COMP 128 (or COMP 124, if previously taken) and , or permission of instructor. Every semester (4 Credits)
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COMP 225 - Software Design and Development
This course is an introduction to the problem of building software with humans and for humans. Students work in teams to design and implement a semester-long user-facing software project of their own invention. There are no limitations on topic or technology; on the contrary, students are responsible for imagining possibilities, articulating goals, and researching and selecting suitable technologies. The format resembles a studio art class, with in-class discussion guided by sharing and critiquing classmates’ ongoing work. Topics include communication, division of labor, user-centered design, human-computer interaction, product management, project management, iterative development, engineering tradeoffs, separation of concerns, code readability and maintainability, refactoring, testing, and version control. Teams give a public demonstration of their working projects at the end of the semester. Prerequisite(s): COMP 127 (COMP 128 recommended), or COMP 124 if previously taken, or permission of instructor. Every semester. (4 Credits)
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COMP 240 - Computer Systems Organization
This course familiarizes the student with the internal design and organization of computers. Topics include number systems, internal data representations, microarchitectures, the functional units of a computer system, memory, processor, and input/output structures, instruction sets and assembly language, addressing techniques, system software, and concurrency and parallelism. Prerequisite(s): COMP 127 (or COMP 124 if previously taken) or permission of instructor. Every semester. (4 Credits)
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COMP 294 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (4 Credits)
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COMP 302 - Introduction to Database Management Systems
This course will introduce students to the design, implementation, and analysis of databases stored in database management systems (DBMS). Topics include implementation-neutral data modeling, database design, database implementation, and data analysis using relational algebra and SQL. Students will generate data models based on real-world problems, and implement a database in a state-of-the-art DBMS. Students will master complex data analysis by learning to first design database queries and then implement them in a database query language such as SQL. Advanced topics include objects in databases, indexing for improved performance, distributed databases, and data warehouses. Typically offered every semester. (4 Credits)
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COMP 320 - Computational Biology Cross-Listed as BIOL 320
This interdisciplnary course will examine selected topics in computational biology, including basic bioinformatics, algorithms used in genomics and genome analysis, computational techniques for systems biology, and synthetic biology. Prerequisite(s): COMP 123 ; BIOL 190 recommended Occasional, usually fall semester. (4 Credits)
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COMP 340 - Digital Electronics Cross-Listed as
A survey of fundamental ideas and methods used in the design and construction of digital electronic circuits such as computers. Emphasis will be on applying the theoretical aspects of digital design to the actual construction of circuits in the laboratory. Topics to be covered include basic circuit theory, transistor physics, logic families (TTL, CMOS), Boolean logic principles, combinatorial design techniques, sequential logic techniques, memory circuits and timing, and applications to microprocessor and computer design. Three lectures and one three-hour laboratory per week. Prerequisite(s): MATH 137 or permission of instructor. Offered alternate spring semesters. (4 Credits)
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COMP 342 - Operating Systems and Computer Architecture
This course introduces the basic design and architecture of operating systems. Concepts to be discussed include sequential and concurrent processes, synchronization and mutual exclusion, processor scheduling, time-sharing, multitasking, parallel processing, memory management, file system design, and security. Students will learn concepts through lectures, readings, and low-level programming using the C programming language. Prerequisite(s): COMP 240 or permission of instructor. Offered occsionally. (4 Credits)
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COMP 361 - Theory of Computation Cross-Listed as
This course examines the theoretical foundations of computation. It explores different mathematical models that try to formalize our informal notion of an algorithm. Models include finite automata, regular expressions, grammars, and Turing machines. The course also discusses ideas about what can and cannot be computed. In addition, the course explores the basics of complexity theory, examining broad categories of problems and their algorithms, and their efficiency. The focus is on the question of P versus NP, and the NP-complete set. Prerequisite(s): (COMP 128 or COMP 221 or COMP 124 if previously taken) and , or permission of instructor. Alternate spring semesters. (4 Credits)
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COMP 365 - Computational Linear Algebra Cross-Listed as MATH 365
A mix of applied linear algebra and numerical analysis, this course covers a central point of contact between mathematics and computer science. Many of the computational techniques important in science, commerce, and statistics are based on concepts from linear algebra, such as subspaces, projections, and matrix decompositions. The course reviews these concepts, adopts them to large scales, and applies them in the core techniques of scientific computing. These include solving systems of linear and nonlinear equations, approximation and statistical function estimation, optimization, interpolation, eigenvalue and singular value decompositions, and compression. Applications throughout the natural sciences, social sciences, statistics, and computer science. Prerequisite(s): COMP 120 or COMP 123 , and MATH 236 Every spring. (4 Credits)
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COMP 381 - Programming Languages
Why do people create different programming languages? What characteristics do languages have in common? What design decisions differentiate them, and what tradeoffs motivate those decisions? How do languages affect the style of code we write, our development processes, and the ways we think about software? In this course, we will examine a wide variety of programming languages, many briefly and a few in depth. We will compare how they approach topics such as type systems, abstraction, composition, state and mutability, access control, flow control, function dispatch, closures, metaprogramming, concurrency, memory management, compilation, and runtime environment. Prerequisite(s): COMP 128 (COMP 240 and COMP 361 useful but not required) Alternate years. (4 Credits)
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COMP 394 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (4 Credits)
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COMP 435 - Data Visualization
In this capstone course, we will study techniques and algorithms for visualization design and analysis. We will cover topics such as visualization of multivariate, temporal, text-based, spatial, hierarchical, and network/graph-based data to clearly and effectively convey information graphically. Our discussions will revolve around principles of graphic design, perceptual psychology, and cognitive science. Students will have the opportunity to complete several programming assignments and data analysis tasks. Prerequisite(s): COMP 127 or permission of instructor. Alternate spring semesters. (4 Credits)
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COMP 440 - Collective Intelligence
This course introduces the theory and practice of data science applied to online communities such as Wikipedia, Facebook, and Twitter. Students will read and discuss recent academic research papers that analyze behavior on these websites and use computational simulation, machine learning, and data-mining techniques to analyze massive behavioral datasets in areas such as recommender systems, natural language processing, and tagging systems. This course counts as the capstone. Prerequisite(s): COMP 221 or permission of instructor. Typically offered odd-numbered fall semesters. (4 Credits)
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COMP 445 - Parallel and Distributed Processing
Many current computational challenges, such as Internet search, protein folding, and data mining require the use of multiple processes running in parallel, whether on a single multiprocessor machine (parallel processing) or on multiple machines connected together on a network (distributed processing). The type of processing required to solve such problems in adequate amounts of time involves dividing the program and/or problem space into parts that can run simultaneously on many processors. In this course we will explore the various computer architectures used for this purpose and the issues involved with programming parallel solutions in such environments. Students will examine several types of problems that can benefit from parallel or distributed solutions and develop their own solutions for them. This course counts as the capstone. Prerequisite(s): COMP 240 and COMP 221 , or permission of instructor. Typically offered odd-numbered fall semesters. (4 Credits)
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COMP 446 - Internet Computing
This course introduces technologies for building dynamic web applications. It will look at all stages in the web application design process, including: 1) the basic protocols and technologies underlying the web (e.g. HTTP, REST), 2) front-end web technologies, such as HTML, CSS, and Javascript, 3) and application servers that manage requests for information, update data, etc. The course will be programming-intensive, with students using web frameworks to design and implement Internet applications. The format of the course will be mainly laboratory-based sessions, where students learn components of a web application, supported by lectures and discussions. Students will research particular topics and present their findings during these discussion sessions. The course will also investigate the usability of designs from a human factors standpoint and discuss privacy and other social consequences of this technology. This course counts as the capstone. Prerequisite(s): COMP 225 or permission of instructor. Typically offered even-numbered fall semesters, (4 Credits)
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COMP 465 - Interactive Computer Graphics
This course will investigate the theory and practice of computer graphics programming using C++ and OpenGL. Through hands-on projects, supported by lecture and discussion, you will learn the fundamentals of creating interactive 2D and 3D images with applications in art, design, games, movies, science, and medicine. Topics covered will include event loops, polygonal models, rendering techniques, texturing, lighting, interaction techniques, and virtual reality. This course counts as the capstone. Prerequisite(s): COMP 240 ; Linear Algebra recommended but not required. Alternate spring semesters. (4 Credits)
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COMP 479 - Network Science Cross-Listed as
The modern Information Age has produced a wealth of data about the complex networks that tie us together. In response, the field of Network Science has arisen, bringing together mathematics, computer science, sociology, biology, economics and other fields. This course will explore the fundamental questions and the mathematical tools of Network Science. This includes: the structure of complex networks, including connectedness, centrality and “long tails”; community detection; random/strategic models for network formation; diffusion/contagion and “tipping points” on networks; and algorithms for analyzing complex networks. Prerequisite(s): COMP 123 , MATH 236 and one of COMP 221 , MATH 354 , or MATH 479 . Offered odd-numbered spring semesters. (4 Credits)
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COMP 480 - Bodies/Minds: AI Robotics
This course examines two distinct aspects of work in robotics: the physical construction of the robot’s “body” and the creation of robot control programs that form the robot’s “mind.” It will study the strengths and weaknesses of a variety of robot sensors, including sonar, infrared, touch, GPS, and computer vision. It will also examine both reactive and deliberative approaches to robot control programs. The course will include hands-on work with multiple robots, and a semester-long course project in robotics. This course involves programming in Python; students should have a basic familiarity with Python or be prepared to learn Python during the course. This course counts as the capstone. Prerequisite(s): COMP 221 or permission of instructor. Typically offered even-numbered spring semesters. (4 Credits)
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COMP 484 - Introduction to Artificial Intelligence
An introduction to the basic principles and techniques of artificial intelligence. Topics will include specific AI techniques, a range of application areas, and connections between AI and other areas of study (i.e., philosophy, psychology). Techniques may include heuristic search, automated reasoning, machine learning, deliberative planning and behavior-based agent control. Application areas include robotics, games, knowledge representation, and natural language processing. This course involves programming in Python; students should have a basic familiarity with Python or be prepared to learn Python during the course. This course counts as the capstone. Prerequisite(s): COMP 221 , or permission of instructor. Typically offered every fall semester. (4 Credits)
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COMP 494 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (4 Credits)
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COMP 601 - Tutorial
Closely supervised individual (or very small group) study with a faculty member in which a student may explore, by way of readings, short writings, etc., an area of computer science not available through the regular offerings. S/SD/N grading option only. Prerequisite(s): Permission of instructor and department chair. Every semester. (1 Credits)
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COMP 602 - Tutorial
Closely supervised individual (or very small group) study with a faculty member in which a student may explore, by way of readings, short writings, etc., an area of computer science not available through the regular offerings. Prerequisite(s): Permission of instructor and department chair. Every semester. (2 Credits)
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COMP 603 - Tutorial
Closely supervised individual (or very small group) study with a faculty member in which a student may explore, by way of readings, short writings, etc., an area of computer science not available through the regular offerings. Prerequisite(s): Permission of instructor and department chair. Every semester. (3 Credits)
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COMP 604 - Tutorial
Closely supervised individual (or very small group) study with a faculty member in which a student may explore, by way of readings, short writings, etc., an area of computer science not available through the regular offerings. Prerequisite(s): Permission of instructor and department chair. Every semester. (4 Credits)
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COMP 611 - Independent Project
Individual project including library research, conferences with instructor, oral and written reports on independent work in computer science. Subject matter may complement but not duplicate material covered in regular courses. Prerequisite(s): Arrangements must be made with a department member prior to registration and permission of instructor and department chair. Every semester. (1 Credits)
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COMP 612 - Independent Project
Individual project including library research, conferences with instructor, oral and written reports on independent work in computer science. Subject matter may complement but not duplicate material covered in regular courses. Prerequisite(s): Arrangements must be made with a department member prior to registration and permission of instructor and department chair. Every semester. (2 Credits)
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COMP 613 - Independent Project
Individual project including library research, conferences with instructor, oral and written reports on independent work in computer science. Subject matter may complement but not duplicate material covered in regular courses. Prerequisite(s): Arrangements must be made with a department member prior to registration and permission of instructor and department chair. Every semester. (3 Credits)
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COMP 614 - Independent Project
Individual project including library research, conferences with instructor, oral and written reports on independent work in computer science. Subject matter may complement but not duplicate material covered in regular courses. Prerequisite(s): Arrangements must be made with a department member prior to registration and permission of instructor and department chair. Every semester. (4 Credits)
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COMP 621 - Internship
Internships are offered only as S/SD/N grading option. Prerequisite(s): Available to junior and senior students with declared majors in computer science. Arrangements must be made prior to registration. Permission of instructor. Work with Internship Office. Every semester. (1 Credits)
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COMP 622 - Internship
Internships are offered only as S/SD/N grading option. Prerequisite(s): Available to junior and senior students with declared majors in computer science. Arrangements must be made prior to registration. Permission of instructor. Work with Internship Office. Every semester. (2 Credits)
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COMP 623 - Internship
Internships are offered only as S/SD/N grading option. Prerequisite(s): Available to junior and senior students with declared majors in computer science. Arrangements must be made prior to registration. Permission of instructor. Work with Internship Office. Every semester. (3 Credits)
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COMP 624 - Internship
Internships are offered only as S/SD/N grading option. Prerequisite(s): Available to junior and senior students with declared majors in computer science. Arrangements must be made prior to registration. Permission of instructor. Work with Internship Office. Every semester. (4 Credits)
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COMP 641 - Honors Independent
Independent research, writing, or other preparation leading to the culmination of the senior honors project. Prerequisite(s): Permission of instructor and department chair. Every semester. (1 Credits)
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COMP 642 - Honors Independent
Independent research, writing, or other preparation leading to the culmination of the senior honors project. Prerequisite(s): Permission of instructor and department chair. Every semester. (2 Credits)
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COMP 643 - Honors Independent
Independent research, writing, or other preparation leading to the culmination of the senior honors project. Prerequisite(s): Permission of instructor and department chair. Every semester. (3 Credits)
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COMP 644 - Honors Independent
Independent research, writing, or other preparation leading to the culmination of the senior honors project. Prerequisite(s): Permission of instructor and department chair. Every semester. (4 Credits)
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Economics |
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ECON 113 - Financial Accounting
Accounting is the language of business. One of the objectives of this course is to learn that “language.” The emphasis will be on understanding financial statements both for profit and non-profit organizations. International accounting, ethics and investment decisions are also covered. This course is designed for students who desire an understanding of the elements of accounting as a component of a liberal arts education as well as for those who would like to study further in accounting or business. This course counts as a Group B elective. Every semester. (4 Credits)
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ECON 115 - Introduction to American Economy
This course provides a non-technical introduction to the basic concepts in economics, with a focus on the United States. Using a small number of fundamental economic concepts, this course provides a foundation for informed decision making regarding current economic debates. The course is intended for non-majors and does not count for the economics major. It is not open to students who have already taken ECON 119 - Principles of Economics. Offered occasionally. (4 Credits)
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ECON 116 - Organizational Leadership
This course will combine a theoretical background with hands-on experience that will permit a student to begin their career-long development of their leadership talent. The traditional model of a great leader was one that was tough, visionary and determined. Today scholars of leadership have argued that a great leader is self-aware, motivated, empathetic and skilled socially. Which model is right? Are there factors common to all great leaders? We will learn from Aristotle, Winston Churchill, Steve Jobs, Ernest Shackelton’s ill-fated trip to the South Pole, and the latest scholarly research. Extensive use will be made of case studies from the Harvard MBA program and guest speakers. This course counts as a Group B elective. Every spring. (4 Credits)
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ECON 117 - Business Negotiations
Business Negotiations will cover frameworks useful in negotiating business agreements, but the negotiating skills learned can be helpful in many settings. Starting with the classic text “Getting to Yes”, students in this course will learn to implement a principled approach to negotiating by focusing on the true interests of the negotiating parties, brainstorming to find ways to improve the outcome of all parties, and identifying and defusing the most common “dirty tricks” of unprincipled negotiators. In class, students will practice negotiating each week, in a series of one-on-one and multi-party negotiating exercises. Case studies will be discussed and alumni will be invited to share negotiating experiences. This course counts as a Group B elective. Alternate fall semesters. (4 Credits)
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ECON 119 - Principles of Economics
Economics is the study of how people make decisions and how these decisions apply to real-world problems. Economics can help us understand income inequality within and across countries, the quality of the environment, unemployment, poverty, crime, health care, financial crises, technological change, inflation and many more issues. This course introduces the basic tools that economists use to explore these topics and will cover fundamental economic concepts like scarcity, supply and demand, costs and benefits, trade-offs, and incentives. This course is a one semester overview of both microeconomics (the study of choices firms and individual consumers make) and macroeconomics (the study of the economy as a whole). This course counts as a Group E economics course and is the prerequisite for 200-level E courses in the Economics Department. Every semester. (4 Credits)
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ECON 129 - Calculus-Based Principles of Economics
An introduction to the basic tools of micro- and macroeconomic analysis in a math intensive way. Microeconomics deals with consumers, firms, markets and income distribution. Macroeconomics deals with national income, employment, inflation and money. Compared to ECON 119 , this class requires calculus to learn economic models and conduct economic analysis, although the two classes cover the same economic concepts and theories. This course counts as a Group E elective. Prerequisite(s): MATH 135 or a qualifying AP Calculus score. Every year. (4 Credits)
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ECON 194 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (4 Credits)
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ECON 210 - Business Communications
This course is intended to help students improve their own critical communication skills and explore how those skills can be best applied in business situations. Students will polish writing skills, with sessions that focus on resumes, cover letters, and everyday business communications like email. Students will learn best practices of effective presentations and will deliver several powerpoint presentations in class. The course will use the case method to review real corporate communication issues, such as crisis management, interpersonal communications challenges, negotiation simulations and the like. Prerequisite(s): ECON 113 or ECON 119 . C- or higher required for all prerequisites. (4 Credits)
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ECON 221 - Introduction to International Economics
This course explores the theoretical foundations and empirical realities of international trade flows, commercial policies (tariffs, quotas, etc.) and international finance. The course emphasizes the welfare implications of international trade and commercial policies and links these to discussion of disputes over international trade agreements. The international finance portion of the course covers the foreign exchange market, balance of payments analysis and an introduction to open economy macroeconomics. Recommended for students majoring in international studies. This course counts as a Group E elective. Prerequisite(s): ECON 119 . C- or higher required for all prerequisites. Every year. (4 Credits)
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ECON 225 - Comparative Economic Systems Cross-Listed as
This course examines the workings of economic systems from the perspective of the incentives facing the firm and consumer. The course provides an introduction to the economics of information and organization which is used to evaluate resource allocation under the specific institutional environment of different economic systems. Our understanding of the incentive system is then used to evaluate the overall economic system. The focus of the course is primarily on the U.S. economy, Japan and the former Soviet Union/Russia. As time permits the course may examine China, Germany and Central Europe. This course counts as a Group E elective. Prerequisite(s): ECON 119 . C- or higher required for all prerequisites. (4 Credits)
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ECON 229 - World Economic History
This course presents a broad overview of world economic history. It uses concepts and models developed in Principles of Economics to explore how the interplay between geography, institutions, and technology has influenced material living standards from the Stone Age to the present. In particular, we will study the causes and consequences of long-term structural forces such as the agriculture, industrial and informational revolutions, the Malthusian trap and demographic transition, slavery, globalization, and the rise of government. We will also explore more cyclical phenomena such as wars, financial crises, economic depressions and hyper-inflations. Students will learn how economic historians use evidence to make sense of the past and the role economic history plays in guiding current policy debates. This course counts as a Group E elective. Prerequisite(s): ECON 119 . C- or higher required for all prerequisites. Once per year. (4 Credits)
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ECON 231 - Environmental Economics and Policy Cross-Listed as ENVI 231
This course studies the economics of public policy toward the environment. We begin by examining the problem of market failure in the presence of externalities and public goods. Then, we consider public policy responses to these market failures, including command-and-control regulations, tax and subsidy incentives, marketable pollution permits, voluntary programs, and information as regulation. We consider these policies in contexts such as local pollution, climate change, threats to biodiversity, environmental justice, international trade, and development. In addition, we learn how to measure the costs and benefits of pollution control. By the end of the semester, you will learn how economists think about environmental problems, understand the advantages and disadvantages of a range of environmental policies, be able to conduct a cost-benefit analysis, and have a complete economic analysis of an environmental problem. This course counts as a Group E elective. Prerequisite(s): ECON 119 . C- or higher required for all prerequisites. Offered occasionally. (4 Credits)
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ECON 235 - Climate Change: Science, Economics, and Policy Cross-Listed as ENVI 235
Combustion of fossil fuels produces carbon dioxide, which traps energy near Earth’s surface and leads to warmer average global temperatures. Combustion of fossil fuels also forms the backbone of the modern economy. This team-taught course provides a framework in which to consider the costs and benefits of fossil fuel consumption in the present and over the coming decades and centuries. We use concepts from climate science and environmental economics to evaluate existing and proposed policy interventions designed to reduce fossil fuel consumption, and consider possible technological solutions to slow or reverse climate change. Among our main approaches are state-of-the-art Integrated Assessment Models; students will be exposed to several of the most commonly used models and to research from their critics. This course counts as a Group E elective. Students signing up for the course as Economics will get credit toward the social sciences general distribution requirement; those signing up for the course as Environmental Studies will get credit toward the natural sciences and mathematics general distribution requirement. Prerequisite(s): ECON 119 . Offered occasionally. (4 Credits)
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ECON 238 - Introduction to Entrepreneurship
This course focuses on theories and applications of Entrepreneurship to identify opportunities and solve problems around the world. Students will learn contemporary methodologies used in startup companies and early stage organizations including: Lean Startup and Human Centered Design methodologies and the Business Model Canvas framework. Students spend the semester working in teams to apply the methodologies to identify a problem and develop a solution. For their final project students will prepare a plan for their solution and present it to an external audience. This course is open to those who are interested in social entrepreneurship as well. This course counts as a Group B elective. Note: Not available to students who took Social Entrepreneurship during the fall 2016 semester. Prerequisite(s): ECON 119 . C- or higher required for all prerequisites. Spring semester. (4 Credits)
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ECON 239 - Economics of Global Food Problems Cross-Listed as ENVI 239 and INTL 239
This course will examine food distribution, production, policy, and hunger issues from an economics perspective. It explores and compares food and agriculture issues in both industrialized and developing countries. Basic economic tools will be applied to provide an analytical understanding of these issues. Topics such as hunger and nutrition, US farm policy, food distribution, food security, food aid, biotechnology and the Green Revolution, the connection between food production and health outcomes, as well as other related themes will be explored in depth throughout the semester. This course counts as a Group E elective. Prerequisite(s): ECON 119 . C- or higher required for all prerequisites. Offered occasionally. (4 Credits)
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ECON 242 - Economics of Gender Cross-Listed as WGSS 242
This course uses economic theory to explore how gender differences lead to different economic outcomes for men and women, both within families and in the marketplace. Topics include applications of economic theory to 1) aspects of family life including marriage, cohabitation, fertility, and divorce, and 2) the interactions of men and women in firms and in markets. The course will combine theory, empirical work, and analysis of economic policies that affect men and women differently. This course counts as a Group E elective. Prerequisite(s): ECON 119 . C- or higher required for all prerequisites. (4 Credits)
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ECON 256 - Intro to Investment Banking
This course will provide a one semester overview of investment banks. The role of equity capital markets, debt capital markets, research, sales and trading, and investment banking will be covered. Basic corporate finance techniques will be introduced. Current financial issues in the business world will be reviewed. Classroom work, case studies, and outside speakers will be utilized. The key objectives of this course are for students to obtain a solid understanding of the various disciplines within the investment banking field and to prepare themselves for interviews and internships. The course is well suited for students who are contemplating a career in investment banking, banking, or corporate finance. This course counts as a Group B elective. Prerequisite(s): ECON 113 and ECON 119 . C- or higher required for all prerequisites. (4 Credits)
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ECON 258 - Introduction to Securities Analysis
This course will primarily focus on equity securities analysis (stocks) from the perspective of institutional (Wall Street) investors. Topics will include industry analysis and forecasting, financial statement analysis, fundamental company analysis and valuation methods. Students will form industry groups and will each research a company in that industry. Students will build complete historical and projected financial statement models in Excel. The end product of the course will be a company report written by each student. This course counts as a Group B elective. Prerequisite(s): ECON 113 Alternate spring semesters. (4 Credits)
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ECON 294 - Topics Course
Varies by semester. Consult the department or class schedule for current listing. (4 Credits)
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ECON 325 - China, Russia and Central Europe in Transition Cross-Listed as INTL 325
This course surveys the theoretic and empirical literature on Soviet-style central planning and the transition to a market economy. The economic history of central planning is examined with emphasis on the experience of the Soviet Union and its variants in Eastern Europe and China. The tool of analysis is the branch of economics known as the economics of organization and information, which will be used to analyze the operation, strengths, and limitations of central planning. The legacy of central planning forms the backdrop for an examination of the transition to a market economy. This course counts as a Group E elective. Prerequisite(s): and one 200-level Economics course from Group E electives; ECON 221 or ECON 225 are recommended. C- or higher required for all prerequisites. Alternate years. (4 Credits)
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