Courses for Spring 2024 | Department of Mathematics

	Title	Instructor	Time	Description	Cross Listings	Fulfills	Syllabus URL
AMCS 5100-401	Complex Analysis	Mona B Merling	TR 12:00 PM-1:29 PM	Complex numbers, DeMoivre's theorem, complex valued functions of a complex variable, the derivative, analytic functions, the Cauchy-Riemann equations, complex integration, Cauchy's integral theorem, residues, computation of definite integrals by residues, and elementary conformal mapping.	MATH4100401
AMCS 5141-401	Advanced Linear Algebra	Julia Hartmann	MF 10:15 AM-11:44 AM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	MATH3140401, MATH5140401
AMCS 5141-402	Advanced Linear Algebra	Fnu Rakvi	TR 1:45 PM-3:14 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	MATH3140402, MATH5140402
AMCS 5141-403	Advanced Linear Algebra		T 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	MATH3140403, MATH5140403
AMCS 5141-404	Advanced Linear Algebra		R 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	MATH3140404, MATH5140404
AMCS 5141-405	Advanced Linear Algebra		M 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	MATH3140405, MATH5140405
AMCS 5141-406	Advanced Linear Algebra		W 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	MATH3140406, MATH5140406
AMCS 5200-401	Ordinary Differential Equations	Andrew Cooper	TR 12:00 PM-1:29 PM	After a rapid review of the basic techniques for solving equations, the course will discuss one or more of the following topics: stability of linear and nonlinear systems, boundary value problems and orthogonal functions, numerical techniques, Laplace transform methods.	MATH4200401
AMCS 5461-401	Advanced Applied Probability	Jiaqi Liu Da Wu	MW 10:15 AM-11:44 AM	The required background is (1) enough math background to understand proof techniques in real analysis (closed sets, uniform covergence, fourier series, etc.) and (2) some exposure to probability theory at an intuitive level (a course at the level of Ross's probability text or some exposure to probability in a statistics class).	MATH5460401
AMCS 6035-001	Numerical and Applied Analysis II		TR 1:45 PM-3:14 PM	We will cover asymptotic methods, primarily for differential equations. In many problems of applied mathematics, there is a small parameter in the problem. Asymptotic analysis represents a collection of methods that takes advantage of the smallness of this parameter. After a brief discussion of non-dimensionalization, we will discuss regular perturbation methods, matched asymptotics, method of multiple scales, WKB approximation, and homogenization. Other topics will be discussed, time permitting. The prerequisite for this class is some familiarity with differential equations, but required background will be reviewed in class.
AMCS 6091-401	Analysis	Ryan C Hynd	TR 10:15 AM-11:44 AM	Real analysis: general measure theory, outer measures and Cartheodory construction, Hausdorff measures, Radon-Nikodym theorem, Fubini's theorem, Hilbert space and L2-theory of the Fourier transform. Functional analysis: normed linear spaces, convexity, the Hahn-Banach theorem, duality for Banach spaces, weak convergence, bounded linear operators, Baire category theorem, uniform boundedness principle, open mapping theorem, closed graph theorem, compact operators, Fredholm theory, interpolation theorems, Lp-theory for the Fourier transform.	MATH6090401
AMCS 6491-401	Stochastic Processes	Xin Sun Da Wu	MW 1:45 PM-3:14 PM	Continuation of MATH 6480/STAT 9300, the 2nd part of Probability Theory for PhD students in the math or statistics department. The main topics include Brownian motion, martingales, Ito's formula, and their applications to random walk and PDE.	MATH6490401, STAT9310401
MATH 0240-101	Calculus III Lab		F 8:30 AM-9:59 AM	Lab for Math 2400
MATH 0240-102	Calculus III Lab		F 10:15 AM-11:44 AM	Lab for Math 2400
MATH 0240-103	Calculus III Lab		F 12:00 PM-1:29 PM	Lab for Math 2400
MATH 0240-104	Calculus III Lab		F 1:45 PM-3:14 PM	Lab for Math 2400
MATH 1070-001	Mathematics of change, Part I	Robin Pemantle	TR 10:15 AM-11:44 AM	Limits, orders of magnitude, differential and integral calculus; Taylor polynomials; estimating and bounding; probability densities. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1070-002	Mathematics of change, Part I	Patrick Shields	MW 7:00 PM-8:29 PM	Limits, orders of magnitude, differential and integral calculus; Taylor polynomials; estimating and bounding; probability densities. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1070-201	Mathematics of change, Part I		MW 8:30 AM-9:59 AM	Limits, orders of magnitude, differential and integral calculus; Taylor polynomials; estimating and bounding; probability densities. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1070-202	Mathematics of change, Part I		MW 10:15 AM-11:44 AM	Limits, orders of magnitude, differential and integral calculus; Taylor polynomials; estimating and bounding; probability densities. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1070-211	Mathematics of change, Part I		TR 8:30 AM-9:59 AM	Limits, orders of magnitude, differential and integral calculus; Taylor polynomials; estimating and bounding; probability densities. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1070-212	Mathematics of change, Part I		TR 10:15 AM-11:44 AM	Limits, orders of magnitude, differential and integral calculus; Taylor polynomials; estimating and bounding; probability densities. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1080-002	Mathematics of change, Part II	Nakia Rimmer	TR 1:45 PM-3:14 PM	Multivariate calculus; optimization; multivariate probability densities. Introduction to linear algebra; introduction to differential equations. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1080-003	Mathematics of change, Part II	Henry Piers Towsner	TR 3:30 PM-4:59 PM	Multivariate calculus; optimization; multivariate probability densities. Introduction to linear algebra; introduction to differential equations. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis	https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202410&c=MATH1080003
MATH 1080-211	Mathematics of change, Part II		MW 8:30 AM-9:59 AM	Multivariate calculus; optimization; multivariate probability densities. Introduction to linear algebra; introduction to differential equations. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1080-212	Mathematics of change, Part II		MW 10:15 AM-11:44 AM	Multivariate calculus; optimization; multivariate probability densities. Introduction to linear algebra; introduction to differential equations. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1080-221	Mathematics of change, Part II		MW 8:30 AM-9:59 AM	Multivariate calculus; optimization; multivariate probability densities. Introduction to linear algebra; introduction to differential equations. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1080-224	Mathematics of change, Part II		MW 10:15 AM-11:44 AM	Multivariate calculus; optimization; multivariate probability densities. Introduction to linear algebra; introduction to differential equations. Mathematical modeling and applications to the social, economic and information sciences.		General Requirement in Formal Reasoning & Analysis
MATH 1300-001	Introduction to Calculus	Irfan Alam	MW 12:00 PM-1:29 PM	Introduction to concepts and methods of calculus for students with little or no previous calculus experience. Polynomial and elementary transcendental functions and their applications, derivatives, extremum problems, curve-sketching, approximations; integrals and the fundamental theorem of calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1300-201	Introduction to Calculus		F 8:30 AM-9:59 AM	Introduction to concepts and methods of calculus for students with little or no previous calculus experience. Polynomial and elementary transcendental functions and their applications, derivatives, extremum problems, curve-sketching, approximations; integrals and the fundamental theorem of calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1300-202	Introduction to Calculus		F 10:15 AM-11:44 AM	Introduction to concepts and methods of calculus for students with little or no previous calculus experience. Polynomial and elementary transcendental functions and their applications, derivatives, extremum problems, curve-sketching, approximations; integrals and the fundamental theorem of calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1300-601	Introduction to Calculus		MW 7:00 PM-8:29 PM	Introduction to concepts and methods of calculus for students with little or no previous calculus experience. Polynomial and elementary transcendental functions and their applications, derivatives, extremum problems, curve-sketching, approximations; integrals and the fundamental theorem of calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-001	Calculus, Part I	Brett S Frankel	MW 10:15 AM-11:44 AM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-002	Calculus, Part I	Beca Lufi	MW 12:00 PM-1:29 PM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-003	Calculus, Part I	Jingwen Chen	MW 1:45 PM-3:14 PM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-201	Calculus, Part I		F 8:30 AM-9:59 AM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-202	Calculus, Part I		F 10:15 AM-11:44 AM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-203	Calculus, Part I		F 1:45 PM-3:14 PM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-204	Calculus, Part I		F 3:30 PM-4:59 PM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-205	Calculus, Part I		F 8:30 AM-9:59 AM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-206	Calculus, Part I		F 10:15 AM-11:44 AM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-207	Calculus, Part I		F 1:45 PM-3:14 PM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-208	Calculus, Part I		F 3:30 PM-4:59 PM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-209	Calculus, Part I		F 8:30 AM-9:59 AM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-210	Calculus, Part I		F 10:15 AM-11:44 AM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-211	Calculus, Part I		F 1:45 PM-3:14 PM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-212	Calculus, Part I		F 3:30 PM-4:59 PM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-213	Calculus, Part I		F 8:30 AM-9:59 AM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-214	Calculus, Part I		F 10:15 AM-11:44 AM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1400-601	Calculus, Part I		MW 7:00 PM-8:29 PM	Brief review of High School calculus, applications of integrals, transcendental functions, methods of integration, infinite series, Taylor's theorem, and first order ordinary differential equations. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-001	Calculus, Part II	Andrew Cooper	TR 8:30 AM-9:59 AM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-002	Calculus, Part II	Sarah L Strikwerda	TR 10:15 AM-11:44 AM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-003	Calculus, Part II	Patrick Shields	TR 12:00 PM-1:29 PM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-201	Calculus, Part II		F 8:30 AM-9:59 AM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-202	Calculus, Part II		F 10:15 AM-11:44 AM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-203	Calculus, Part II		F 12:00 PM-1:29 PM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-204	Calculus, Part II		F 3:30 PM-4:59 PM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-205	Calculus, Part II		F 8:30 AM-9:59 AM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-206	Calculus, Part II		F 10:15 AM-11:44 AM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-207	Calculus, Part II		F 12:00 PM-1:29 PM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-208	Calculus, Part II		F 3:30 PM-4:59 PM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-209	Calculus, Part II		F 8:30 AM-9:59 AM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-210	Calculus, Part II		F 10:15 AM-11:44 AM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-211	Calculus, Part II		F 12:00 PM-1:29 PM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-212	Calculus, Part II		F 3:30 PM-4:59 PM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1410-213	Calculus, Part II		F 8:30 AM-9:59 AM	Functions of several variables, vector-valued functions, partial derivatives and applications, double and triple integrals, conic sections, polar coordinates, vectors and vector calculus, first order ordinary differential equations. Applications to physical sciences. Use of symbolic manipulation and graphics software in calculus.		General Requirement in Formal Reasoning & Analysis
MATH 1700-001	Ideas in Mathematics		MF 1:45 PM-3:14 PM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 1700-002	Ideas in Mathematics	Yumeng Ou	TR 1:45 PM-3:14 PM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 1700-201	Ideas in Mathematics		T 8:30 AM-9:29 AM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 1700-202	Ideas in Mathematics		T 10:15 AM-11:14 AM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 1700-203	Ideas in Mathematics		R 8:30 AM-9:29 AM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 1700-204	Ideas in Mathematics		R 10:15 AM-11:14 AM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 1700-211	Ideas in Mathematics		W 8:30 AM-9:29 AM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 1700-212	Ideas in Mathematics		W 10:15 AM-11:14 AM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 1700-213	Ideas in Mathematics		F 8:30 AM-9:29 AM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 1700-601	Ideas in Mathematics		TR 7:00 PM-8:29 PM	Topics from among the following: logic, sets, calculus, probability, history and philosophy of mathematics, game theory, geometry, and their relevance to contemporary science and society.		Nat Sci & Math Sector (new curriculum only)
MATH 2030-101	Proving things: Algebra		T 7:00 PM-8:29 PM	This course focuses on the creative side of mathematics, with an emphasis on discovery, reasoning, proofs and effective communication, while at the same time studying arithmetic, algebra, linear algebra, groups, rings and fields. Small class sizes permit an informal, discussion-type atmosphere, and often the entire class works together on a given problem. Homework is intended to be thought-provoking, rather than skill-sharpening.		General Requirement in Formal Reasoning & Analysis
MATH 2030-102	Proving things: Algebra		R 7:00 PM-8:29 PM	This course focuses on the creative side of mathematics, with an emphasis on discovery, reasoning, proofs and effective communication, while at the same time studying arithmetic, algebra, linear algebra, groups, rings and fields. Small class sizes permit an informal, discussion-type atmosphere, and often the entire class works together on a given problem. Homework is intended to be thought-provoking, rather than skill-sharpening.		General Requirement in Formal Reasoning & Analysis
MATH 2030-301	Proving things: Algebra	Angela Gibney	MWF 12:00 PM-12:59 PM	This course focuses on the creative side of mathematics, with an emphasis on discovery, reasoning, proofs and effective communication, while at the same time studying arithmetic, algebra, linear algebra, groups, rings and fields. Small class sizes permit an informal, discussion-type atmosphere, and often the entire class works together on a given problem. Homework is intended to be thought-provoking, rather than skill-sharpening.		General Requirement in Formal Reasoning & Analysis
MATH 2100-001	Mathematics in the Age of Information		TR 3:30 PM-4:59 PM	This course counts as a regular elective for both the Mathematics Major and Minor. This is a course about mathematical reasoning and the media. Embedded in many stories one finds in the media are mathematical questions as well as implicit mathematical models for how the world behaves. We will discuss ways to recognize such questions and models, and how to think about them from a mathematical perspective. A key part of the course will be about what constitutes a mathematical proof, and what passes for proof in various media contexts. The course will cover a variety of topics in logic, probability and statistics as well as how these subjects can be used and abused.		Nat Sci & Math Sector (new curriculum only)
MATH 2400-001	Calculus, Part III	Davi Maximo-Alexandrino-Nogueir	MW 8:30 AM-9:59 AM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-002	Calculus, Part III	Mira A Peterka	MW 10:15 AM-11:44 AM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-003	Calculus, Part III	Nakia Rimmer	TR 12:00 PM-1:29 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-201	Calculus, Part III		MW 10:15 AM-11:44 AM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-202	Calculus, Part III		MW 10:15 AM-11:44 AM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-203	Calculus, Part III		MW 10:15 AM-11:44 AM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-204	Calculus, Part III		MW 10:15 AM-11:44 AM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-211	Calculus, Part III		MW 12:00 PM-1:29 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-212	Calculus, Part III		MW 12:00 PM-1:29 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-213	Calculus, Part III		MW 12:00 PM-1:29 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-221	Calculus, Part III		TR 1:45 PM-3:14 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-222	Calculus, Part III		TR 1:45 PM-3:14 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-223	Calculus, Part III		TR 1:45 PM-3:14 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-224	Calculus, Part III		TR 1:45 PM-3:14 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-225	Calculus, Part III		TR 1:45 PM-3:14 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2400-226	Calculus, Part III		TR 1:45 PM-3:14 PM	Linear algebra: vectors, matrices, systems of linear equations, vector spaces, subspaces, spans, bases, and dimension, eigenvalues, and eigenvectors, maxtrix exponentials. Ordinary differential equations: higher-order homogeneous and inhomogeneous ODEs and linear systems of ODEs, phase plane analysis, non-linear systems.
MATH 2410-001	Calculus, Part IV		MW 12:00 PM-1:29 PM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2410-002	Calculus, Part IV	Michael A. Carchidi	TR 10:15 AM-11:44 AM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2410-201	Calculus, Part IV		T 8:30 AM-9:29 AM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2410-202	Calculus, Part IV		T 10:15 AM-11:14 AM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2410-203	Calculus, Part IV		R 8:30 AM-9:29 AM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2410-204	Calculus, Part IV		R 10:15 AM-11:14 AM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2410-211	Calculus, Part IV		M 8:30 AM-9:29 AM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2410-212	Calculus, Part IV		M 10:15 AM-11:14 AM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2410-213	Calculus, Part IV		F 8:30 AM-9:29 AM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2410-214	Calculus, Part IV		F 10:15 AM-11:14 AM	Partial differential equations and their solutions, including solutions of the wave, heat and Laplace equations, and Sturm-Liouville problems. Introduction to Fourier series and Fourier transforms. Computation of solutions, modeling using PDE's, geometric intuition, and qualitative understanding of the evolution of systems according to the type of partial differential operator.
MATH 2600-001	Honors Calculus, Part II	Herman Gluck	TR 12:00 PM-1:29 PM	This is an honors version of Math 2400 which explores the same topics but with greater mathematical rigor.
MATH 2600-201	Honors Calculus, Part II		M 7:00 PM-8:59 PM	This is an honors version of Math 2400 which explores the same topics but with greater mathematical rigor.
MATH 2600-202	Honors Calculus, Part II		W 7:00 PM-8:59 PM	This is an honors version of Math 2400 which explores the same topics but with greater mathematical rigor.
MATH 3120-001	Linear Algebra	Irfan Alam	MW 10:15 AM-11:44 AM	Linear transformations, Gauss Jordan elimination, eigenvalues and eigenvectors, theory and applications. Mathematics majors are advised that MATH 3120 cannot be taken to satisfy the major requirements.
MATH 3120-002	Linear Algebra	Yumeng Ou	TR 12:00 PM-1:29 PM	Linear transformations, Gauss Jordan elimination, eigenvalues and eigenvectors, theory and applications. Mathematics majors are advised that MATH 3120 cannot be taken to satisfy the major requirements.
MATH 3130-401	Computational Linear Algebra	John D Green	TR 10:15 AM-11:44 AM	Many important problems in a wide range of disciplines within computer science and throughout science are solved using techniques from linear algebra. This course will introduce students to some of the most widely used algorithms and illustrate how they are actually used. Some specific topics: the solution of systems of linear equations by Gaussian elimination, dimension of a linear space, inner product, cross product, change of basis, affine and rigid motions, eigenvalues and eigenvectors, diagonalization of both symmetric and non-symmetric matrices, quadratic polynomials, and least squares optimazation. Applications will include the use of matrix computations to computer graphics, use of the discrete Fourier transform and related techniques in digital signal processing, the analysis of systems of linear differential equations, and singular value deompositions with application to a principal component analysis. The ideas and tools provided by this course will be useful to students who intend to tackle higher level courses in digital signal processing, computer vision, robotics, and computer graphics.	MATH5130401		https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202410&c=MATH3130401
MATH 3140-401	Advanced Linear Algebra	Julia Hartmann	MF 10:15 AM-11:44 AM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products: Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141401, MATH5140401
MATH 3140-402	Advanced Linear Algebra	Fnu Rakvi	TR 1:45 PM-3:14 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products: Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141402, MATH5140402
MATH 3140-403	Advanced Linear Algebra		T 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products: Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141403, MATH5140403
MATH 3140-404	Advanced Linear Algebra		R 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products: Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141404, MATH5140404
MATH 3140-405	Advanced Linear Algebra		M 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products: Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141405, MATH5140405
MATH 3140-406	Advanced Linear Algebra		W 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products: Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141406, MATH5140406
MATH 3410-401	Discrete Mathematics II	Andre Scedrov	TR 10:15 AM-11:44 AM	Topics will be drawn from some subjects useful in the analysis of information and computation: logic, set theory, theory of computation, number theory, probability, and basic cryptography.	LGIC2200401
MATH 3500-001	Number Theory	Ted C K Chinburg	TR 12:00 PM-1:29 PM	Congruences, Diophantine equations, continued fractions, nonlinear congruences,and quadratic residues.
MATH 3600-001	Advanced Calculus	Andrew Cooper	TR 3:30 PM-4:59 PM	Syllabus for MATH 360-361: a study of the foundations of the differential and integral calculus, including the real numbers and elementary topology, continuous and differentiable functions, uniform convergence of series of functions, and inverse and implicit function theorems. MATH 508-509 is a masters level version of this course.
MATH 3600-101	Advanced Calculus		M 7:00 PM-8:59 PM	Syllabus for MATH 360-361: a study of the foundations of the differential and integral calculus, including the real numbers and elementary topology, continuous and differentiable functions, uniform convergence of series of functions, and inverse and implicit function theorems. MATH 508-509 is a masters level version of this course.
MATH 3600-102	Advanced Calculus		W 7:00 PM-8:59 PM	Syllabus for MATH 360-361: a study of the foundations of the differential and integral calculus, including the real numbers and elementary topology, continuous and differentiable functions, uniform convergence of series of functions, and inverse and implicit function theorems. MATH 508-509 is a masters level version of this course.
MATH 3610-001	Advanced Calculus	Mira A Peterka	MW 12:00 PM-1:29 PM	Continuation of MATH 3600.
MATH 3610-002	Advanced Calculus	Robert M. Strain	TR 1:45 PM-3:14 PM	Continuation of MATH 3600.
MATH 3610-101	Advanced Calculus		T 7:00 PM-8:59 PM	Continuation of MATH 3600.
MATH 3610-102	Advanced Calculus		R 7:00 PM-8:59 PM	Continuation of MATH 3600.
MATH 3610-103	Advanced Calculus		M 7:00 PM-8:59 PM	Continuation of MATH 3600.
MATH 3610-104	Advanced Calculus		W 7:00 PM-8:59 PM	Continuation of MATH 3600.
MATH 3700-001	Algebra	Fnu Rakvi	TR 3:30 PM-4:59 PM	Syllabus for MATH 370-371: an introduction to the basic concepts of modern algebra. Linear algebra, eigenvalues and eigenvectors of matrices, groups, rings and fields. MATH 502-503 is a masters level version of this course.
MATH 3700-101	Algebra		M 7:00 PM-8:59 PM	Syllabus for MATH 370-371: an introduction to the basic concepts of modern algebra. Linear algebra, eigenvalues and eigenvectors of matrices, groups, rings and fields. MATH 502-503 is a masters level version of this course.
MATH 3700-102	Algebra		W 7:00 PM-8:59 PM	Syllabus for MATH 370-371: an introduction to the basic concepts of modern algebra. Linear algebra, eigenvalues and eigenvectors of matrices, groups, rings and fields. MATH 502-503 is a masters level version of this course.
MATH 3710-001	Algebra	Jianqi Liu	MW 12:00 PM-1:29 PM	Continuation of MATH 3700.
MATH 3710-101	Algebra		T 7:00 PM-8:59 PM	Continuation of MATH 3700.
MATH 3710-102	Algebra		R 7:00 PM-8:59 PM	Continuation of MATH 3700.
MATH 4100-401	Complex Analysis	Mona B Merling	TR 12:00 PM-1:29 PM	Complex numbers, DeMoivre's theorem, complex valued functions of a complex variable, the derivative, analytic functions, the Cauchy-Riemann equations, complex integration, Cauchy's integral theorem, residues, computation of definite integrals by residues, and elementary conformal mapping.	AMCS5100401
MATH 4200-401	Ordinary Differential Equations	Andrew Cooper	TR 12:00 PM-1:29 PM	After a rapid review of the basic techniques for solving equations, the course will discuss one or more of the following topics: stability of linear and nonlinear systems, boundary value problems and orthogonal functions, numerical techniques, Laplace transform methods.	AMCS5200401
MATH 4250-001	Partial Differential Equations	Ching-Li Chai	MW 12:00 PM-1:29 PM	Method of separation of variables will be applied to solve the wave, heat, and Laplace equations. In addition, one or more of the following topics will be covered: qualitative properties of solutions of various equations (characteristics, maximum principles, uniqueness theorems), Laplace and Fourier transform methods, and approximation techniques.
MATH 4650-401	Differential Geometry	Krishan M Canzius Dennis M Deturck	TR 12:00 PM-1:29 PM	Differential geometry of curves in the plane and in 3-space;n gauge theories Surfaces in 3-space; The geometry of the Gauss map;ons. The language of Intrinsic geometry of surfaces; Geodesics; Moving frames; of vector bundles, The Gauss-Bonnet Theorem; Assorted additional topics.	MATH5010401
MATH 5010-401	Differential Geometry	Krishan M Canzius Dennis M Deturck	TR 12:00 PM-1:29 PM	The course moves from a study of extrinsic geometry (curves and surfaces in n-space) to the intrinsic geometry of manifolds. After a review of vector calculus and a section on tensor algebra, we study manifolds and their intrinsic geometry, including metrics, connections, geodesics, and the Riemann curvature tensor. Topics include Eulerian curvature and Euler's theorems, the Gauss map and first/second fundamental forms, the Theorema Egregium, minimal surfaces in n-space; other topics as time permits.	MATH4650401
MATH 5030-001	Abstract Algebra	Jianqi Liu	MW 10:15 AM-11:44 AM	Continuation of Math 5020.
MATH 5030-101	Abstract Algebra		T 7:00 PM-8:59 PM	Continuation of Math 5020.
MATH 5030-102	Abstract Algebra		R 7:00 PM-8:59 PM	Continuation of Math 5020.
MATH 5090-001	Advanced Analysis	Philip Gressman	TR 10:15 AM-11:44 AM	Continuation of Math 5080. The Arzela-Ascoli theorem. Introduction to the topology of metric spaces with an emphasis on higher dimensional Euclidean spaces. The contraction mapping principle. Inverse and implicit function theorems. Rigorous treatment of higher dimensional differential calculus. Introduction to Fourier analysis and asymptotic methods.
MATH 5090-101	Advanced Analysis		M 7:00 PM-8:59 PM	Continuation of Math 5080. The Arzela-Ascoli theorem. Introduction to the topology of metric spaces with an emphasis on higher dimensional Euclidean spaces. The contraction mapping principle. Inverse and implicit function theorems. Rigorous treatment of higher dimensional differential calculus. Introduction to Fourier analysis and asymptotic methods.
MATH 5090-102	Advanced Analysis		W 7:00 PM-8:59 PM	Continuation of Math 5080. The Arzela-Ascoli theorem. Introduction to the topology of metric spaces with an emphasis on higher dimensional Euclidean spaces. The contraction mapping principle. Inverse and implicit function theorems. Rigorous treatment of higher dimensional differential calculus. Introduction to Fourier analysis and asymptotic methods.
MATH 5130-401	Computational Linear Algebra	John D Green	TR 10:15 AM-11:44 AM	A number of important and interesting problems in a wide range of disciplines within computer science are solved by recourse to techniques from linear algebra. The goal of this course will be to introduce students to some of the most important and widely used algorithms in matrix computation and to illustrate how they are actually used in various settings. Motivating applications will include: the solution of systems of linear equations, applications matrix computations to modeling geometric transformations in graphics, applications of the Discrete Fourier Transform and related techniques in digital signal processing, the solution of linear least squares optimization problems and the analysis of systems of linear differential equations. The course will cover the theoretical underpinnings of these problems and the numerical algorithms that are used to perform important matrixcomputations such as Gaussian Elimination, LU Decomposition and Singular Value Decomposition.	MATH3130401		https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202410&c=MATH5130401
MATH 5140-401	Advanced Linear Algebra	Julia Hartmann	MF 10:15 AM-11:44 AM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141401, MATH3140401
MATH 5140-402	Advanced Linear Algebra	Fnu Rakvi	TR 1:45 PM-3:14 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141402, MATH3140402
MATH 5140-403	Advanced Linear Algebra		T 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141403, MATH3140403
MATH 5140-404	Advanced Linear Algebra		R 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141404, MATH3140404
MATH 5140-405	Advanced Linear Algebra		M 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141405, MATH3140405
MATH 5140-406	Advanced Linear Algebra		W 7:00 PM-8:59 PM	Topics will include: Vector spaces, Basis and dimension, quotients; Linear maps and matrices; Determinants, Dual spaces and maps; Invariant subspaces, Cononical forms; Scalar products; Euclidean, unitary and symplectic spaces; Orthogonal and Unitary operators; Tensor products and polylinear maps; Symmetric and skew-symmetric tensors and exterior algebra.	AMCS5141406, MATH3140406
MATH 5460-401	Advanced Applied Probability	Jiaqi Liu Da Wu	MW 10:15 AM-11:44 AM	The required background is (1) enough math background to understand proof techniques in real analysis (closed sets, uniform covergence, fourier series, etc.) and (2) some exposure to probability theory at an intuitive level (a course at the level of Ross's probability text or some exposure to probability in a statistics class).	AMCS5461401
MATH 5710-401	Logic and Computability 2	Andre Scedrov	TR 1:45 PM-3:14 PM	A continuation of PHIL 6721.	LGIC3200401, PHIL4722401, PHIL6722401
MATH 5810-001	Topics in Combinatorial Theory	James B. Haglund	TR 10:15 AM-11:44 AM	Variable topics connected to current research in combinatorial theory. Recent topics include algebraic combinatorics and symmetric functions, analytic combinatorics and discrete probability.
MATH 6010-001	Topology and Geometric Analysis	Mona B Merling	TR 1:45 PM-3:14 PM	Covering spaces and fundamental groups, van Kampen's theorem and classification of surfaces. Basics of homology and cohomology, singular and cellular; isomorphism with de Rham cohomology. Brouwer fixed point theorem, CW complexes, cup and cap products, Poincare duality, Kunneth and universal coefficient theorems, Alexander duality, Lefschetz fixed point theorem.
MATH 6030-001	Algebra	Florian Pop	MW 10:15 AM-11:44 AM	Continuation of Math 6020.
MATH 6090-401	Analysis	Ryan C Hynd	TR 10:15 AM-11:44 AM	Real analysis: general measure theory, outer measures and Cartheodory construction, Hausdorff measures, Radon-Nikodym theorem, Fubini's theorem, Hilbert space and L2-theory of the Fourier transform. Functional analysis: normed linear spaces, convexity, the Hahn-Banach theorem, duality for Banach spaces, weak convergence, bounded linear operators, Baire category theorem, uniform boundedness principle, open mapping theorem, closed graph theorem, compact operators, Fredholm theory, interpolation theorems, Lp-theory for the Fourier transform.	AMCS6091401
MATH 6190-001	Algebraic Topology, Part I	Jonathan Block	TR 10:15 AM-11:44 AM	Rational homotopy theory, cobordism, K-theory, Morse theory and the h-corbodism theorem. Surgery theory.
MATH 6210-001	Algebraic Number Theory	Ted C K Chinburg	TR 1:45 PM-3:14 PM	Continuation of Math 6200.
MATH 6230-001	Complex Algebraic Geometry	Tony G Pantev	MW 8:30 AM-9:59 AM	Continuation of Math 6220.
MATH 6490-401	Stochastic Processes	Xin Sun Da Wu	MW 1:45 PM-3:14 PM	Continuation of MATH 6480/STAT 9300, the 2nd part of Probability Theory for PhD students in the math or statistics department. The main topics include Brownian motion, martingales, Ito's formula, and their applications to random walk and PDE.	AMCS6491401, STAT9310401
MATH 6770-401	Topics in Mathematical Logic: Game Theory, Artificial Intelligence, and Existential Risk	Aydin Mohseni	MW 1:45 PM-3:14 PM	This graduate course focuses on topics drawn from the central areas of mathematical logic: model theory, proof theory, set theory, and computability theory.	LGIC4960401, PHIL4720401, PHIL6720401
MATH 7210-001	Advanced Number Theory	Ching-Li Chai	MW 1:45 PM-3:14 PM	Continuation of Math 7200.
MATH 7250-001	Topics in Algebraic Geometry	Danny Krashen	MW 3:30 PM-4:59 PM	Topics from the literature. The specific subject will vary from year to year.