The courses listed below are provided by the JHU Public Course Search. This listing provides a snapshot of immediately available courses and may not be complete. Course registration information can be found on the Student Information Services (SIS) website. To see a complete list of courses offered and their descriptions, visit the online course catalog. Click on the course number for link to course website.

Important: sections with section number 88 are not open for enrollment by AS/EN Homewood undergraduates.

Column one has the course number and section. Other columns show the course title, days offered, instructor's name, room number, if the course is cross-referenced with another program, and a option to view additional course information in a pop-up window.

Calculus I (Biology and Social Sciences) AS.110.106 (01)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM 01-23-2023 to 04-28-2023

Instructor: Sun, Yuchin

Room: Hodson 210

Status: Open

Seats Available: 4/24

PosTag(s): ROBO-CMMA

Calculus I (Biology and Social Sciences) AS.110.106 (02)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Calculus I (Biology and Social Sciences) AS.110.106 (03)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM 01-23-2023 to 04-28-2023

Instructor: Sun, Yuchin

Room: Hodson 210

Status: Open

Seats Available: 8/24

PosTag(s): ROBO-CMMA

Calculus II (For Biological and Social Science) AS.110.107 (01)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Biological and Social Science) AS.110.107 (02)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM 01-23-2023 to 04-28-2023

Instructor: Gruber, Sean

Room: Maryland 110

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus II (For Biological and Social Science) AS.110.107 (03)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM 01-23-2023 to 04-28-2023

Instructor: Gruber, Sean

Room: Maryland 110

Status: Open

Seats Available: 1/24

PosTag(s): ROBO-CMMA

Calculus II (For Biological and Social Science) AS.110.107 (04)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Biological and Social Science) AS.110.107 (05)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Biological and Social Science) AS.110.107 (06)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 3:00PM - 3:50PM 01-23-2023 to 04-28-2023

Instructor: Brown, Richard

Room: Remsen Hall 1

Status: Open

Seats Available: 2/24

PosTag(s): ROBO-CMMA

Calculus II (For Biological and Social Science) AS.110.107 (07)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 4:30PM - 5:20PM 01-23-2023 to 04-28-2023

Instructor: Brown, Richard

Room: Remsen Hall 1

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus II (For Biological and Social Science) AS.110.107 (08)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Biological and Social Science) AS.110.107 (09)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Biological and Social Science) AS.110.107 (10)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM 01-23-2023 to 04-28-2023

Instructor: Brown, Richard

Room: Remsen Hall 1

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus II (For Biological and Social Science) AS.110.107 (11)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Physical Sciences and Engineering) AS.110.109 (01)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 1:30PM - 2:20PM 01-23-2023 to 04-28-2023

Instructor: Braley, Emily

Room: Shaffer 3

Status: Open

Seats Available: 1/24

PosTag(s): ROBO-CMMA

Calculus II (For Physical Sciences and Engineering) AS.110.109 (02)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM 01-23-2023 to 04-28-2023

Instructor: Braley, Emily

Room: Shaffer 3

Status: Open

Seats Available: 10/24

PosTag(s): ROBO-CMMA

Calculus II (For Physical Sciences and Engineering) AS.110.109 (03)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM 01-23-2023 to 04-28-2023

Instructor: Braley, Emily

Room: Shaffer 3

Status: Open

Seats Available: 4/24

PosTag(s): ROBO-CMMA

Calculus II (For Physical Sciences and Engineering) AS.110.109 (04)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 6:00PM - 6:50PM 01-23-2023 to 04-28-2023

Instructor: Braley, Emily

Room: Shaffer 3

Status: Open

Seats Available: 4/24

PosTag(s): ROBO-CMMA

Calculus II (For Physical Sciences and Engineering) AS.110.109 (05)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Physical Sciences and Engineering) AS.110.109 (06)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Physical Sciences and Engineering) AS.110.109 (07)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Physical Sciences and Engineering) AS.110.109 (08)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM 01-23-2023 to 04-28-2023

Instructor: Weinberger, Jonathan Maximilian Lajos

Room: Shaffer 301

Status: Open

Seats Available: 11/24

PosTag(s): ROBO-CMMA

Linear Algebra AS.110.201 (02)

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM 01-23-2023 to 04-28-2023

Instructor: Weinberger, Jonathan Maximilian Lajos

Room: Shaffer 301

Status: Open

Seats Available: 6/24

PosTag(s): ROBO-CMMA

Linear Algebra AS.110.201 (03)

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 1:30PM - 2:20PM 01-23-2023 to 04-28-2023

Instructor: Weinberger, Jonathan Maximilian Lajos

Room: Hodson 210

Status: Open

Seats Available: 1/24

PosTag(s): ROBO-CMMA

Linear Algebra AS.110.201 (06)

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM 01-23-2023 to 04-28-2023

Instructor: Weinberger, Jonathan Maximilian Lajos

Room: Hodson 210

Status: Open

Seats Available: 3/24

PosTag(s): ROBO-CMMA

Linear Algebra AS.110.201 (07)

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 3:00PM - 3:50PM 01-23-2023 to 04-28-2023

Instructor: Wang, Xiong

Room: Krieger 205

Status: Open

Seats Available: 2/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (02)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM 01-23-2023 to 04-28-2023

Instructor: Wang, Xiong

Room: Krieger 205

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (03)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 12:00PM - 12:50PM, T 3:00PM - 3:50PM 01-23-2023 to 04-28-2023

Instructor: Wang, Xiong

Room: Shaffer 301

Status: Open

Seats Available: 7/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (06)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 12:00PM - 12:50PM, T 4:30PM - 5:20PM 01-23-2023 to 04-28-2023

Instructor: Wang, Xiong

Room: Shaffer 301

Status: Open

Seats Available: 7/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (07)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

This course includes the material in AS.110.202 with some additional applications and theory. Recommended for mathematically able students majoring in physical science, engineering, or especially mathematics. AS.110.211-AS.110.212 used to be an integrated yearlong course, but now the two are independent courses and can be taken in either order.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 01-23-2023 to 04-28-2023

Instructor: Mese, CHIKAKO

Room: Maryland 114

Status: Open

Seats Available: 11/20

PosTag(s): ROBO-CMMA

Honors Linear Algebra AS.110.212 (01)

This course includes the material in AS.110.201 with additional applications and theory, and is recommended only for mathematically able students majoring in physical science, engineering, or mathematics who are interested in a proof-based version of linear algebra. This course can serve as an Introduction to Proofs (IP) course.
Prerequisites: Grade of B+ or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 01-23-2023 to 04-28-2023

Instructor: Sarazola Duarte, Maru Eugenia

Room: Maryland 217

Status: Open

Seats Available: 1/20

PosTag(s): ROBO-CMMA

Introduction to Proofs AS.110.301 (01)

This course will provide a practical introduction to mathematical proofs with the aim of developing fluency in the language of mathematics, which itself is often described as “the language of the universe.” Along with a library of proof techniques, we shall tour propositional logic, set theory, cardinal arithmetic, and metric topology and explore “proof relevant” mathematics by interacting with a computer proof assistant. This course on the construction of mathematical proof will conclude with a deconstruction of mathematical proof, interrogating the extent to which proof serves as a means to discover universal truths and assessing the mechanisms by which the mathematical community achieves consensus regarding whether a claimed result has been proven.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 01-23-2023 to 04-28-2023

Instructor: Campion, Tim Francis

Room: Maryland 202

Status: Open

Seats Available: 16/20

PosTag(s): n/a

Differential Equations and Applications AS.110.302 (01)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MWF 12:00PM - 12:50PM, T 4:30PM - 5:20PM 01-23-2023 to 04-28-2023

Instructor: Dodson, Benjamin

Room: Olin 305

Status: Open

Seats Available: 1/24

PosTag(s): n/a

Differential Equations and Applications AS.110.302 (02)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MWF 12:00PM - 12:50PM, T 6:00PM - 6:50PM 01-23-2023 to 04-28-2023

Instructor: Dodson, Benjamin

Room: Olin 305

Status: Open

Seats Available: 3/24

PosTag(s): n/a

Differential Equations and Applications AS.110.302 (03)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Differential Equations and Applications AS.110.302 (04)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Differential Equations and Applications AS.110.302 (05)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MWF 1:30PM - 2:20PM, T 3:00PM - 3:50PM 01-23-2023 to 04-28-2023

Instructor: Dodson, Benjamin

Room: Maryland 201

Status: Open

Seats Available: 8/24

PosTag(s): n/a

Differential Equations and Applications AS.110.302 (06)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MWF 1:30PM - 2:20PM, T 4:30PM - 5:20PM 01-23-2023 to 04-28-2023

Instructor: Dodson, Benjamin

Room: Maryland 201

Status: Open

Seats Available: 6/24

PosTag(s): n/a

Elementary Number Theory AS.110.304 (01)

The student is provided with many historical examples of topics, each of which serves as an illustration of and provides a background for many years of current research in number theory. Primes and prime factorization, congruences, Euler's function, quadratic reciprocity, primitive roots, solutions to polynomial congruences (Chevalley's theorem), Diophantine equations including the Pythagorean and Pell equations, Gaussian integers, Dirichlet's theorem on primes.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 9:00AM - 10:15AM 01-23-2023 to 04-28-2023

Instructor: Li, Huajie

Room: Maryland 104

Status: Open

Seats Available: 8/20

PosTag(s): n/a

Methods of Complex Analysis AS.110.311 (01)

This course is an introduction to the theory of functions of one complex variable. Its emphasis is on techniques and applications, and it serves as a basis for more advanced courses. Functions of a complex variable and their derivatives; power series and Laurent expansions; Cauchy integral theorem and formula; calculus of residues and contour integrals; harmonic functions.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 12:00PM - 1:15PM 01-23-2023 to 04-28-2023

Instructor: Zhou, Yifu

Room: Maryland 217

Status: Open

Seats Available: 10/25

PosTag(s): n/a

Introduction to Abstract Algebra AS.110.401 (01)

An introduction to the basic notions of modern abstract algebra and can serve as as Introduction to Proofs (IP) course. This course is an introduction to group theory, with an emphasis on concrete examples, and especially on geometric symmetry groups. The course will introduce basic notions (groups, subgroups, homomorphisms, quotients) and prove foundational results (Lagrange's theorem, Cauchy's theorem, orbit-counting techniques, the classification of finite abelian groups). Examples to be discussed include permutation groups, dihedral groups, matrix groups, and finite rotation groups, culminating in the classification of the wallpaper groups.
Prerequisites: Grade of C- or better in 110.201 or 110.212
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MW 12:00PM - 1:15PM, F 12:00PM - 12:50PM 01-23-2023 to 04-28-2023

Instructor: Shumakovitch, Alexander N

Room: Bloomberg 276

Status: Open

Seats Available: 12/20

PosTag(s): n/a

Real Analysis I AS.110.405 (01)

This course is designed to give a firm grounding in the basic tools of analysis. It is recommended as preparation (but may not be a prerequisite) for other advanced analysis courses and may be taken as an Introduction to Proofs (IP) course. Topics include the formal properties of real and complex number systems, topology of metric spaces, limits, continuity, infinite sequences and series, differentiation, Riemann-Stieltjes integration.
Prerequisites: Grade of C- or better in 110.201 or 110.212 and 110.202 or 110.211

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 01-23-2023 to 04-28-2023

Instructor: Park, Chamsol

Room: Ames 218

Status: Open

Seats Available: 26/40

PosTag(s): BMED-CB

Real Analysis II AS.110.406 (01)

This course continues AS.110.405 with an emphasis on the fundamental notions of modern analysis. Sequences and series of functions, Fourier series, equicontinuity and the Arzela-Ascoli theorem, the Stone-Weierstrass theorem, functions of several variables, the inverse and implicit function theorems, introduction to the Lebesgue integral.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 01-23-2023 to 04-28-2023

Instructor: Sire, Yannick

Room:

Status: Open

Seats Available: 9/12

PosTag(s): n/a

Honors Algebra II AS.110.412 (01)

This is a continuation of 110.411 Honors Algebra I. Topics studies include principal ideal domains, structure of finitely generated modules over them. Introduction to field theory. Linear algebra over a field. Field extensions, constructible polygons, non-trisectability. Splitting field of a polynomial, algebraic closure of a field. Galois theory: correspondence between subgroups and subfields. Solvability of polynomial equations by radicals. Prerequisites: Grade of C- or better in 110.201 or 110.212.
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MW 12:00PM - 1:15PM, F 12:00PM - 12:50PM 01-23-2023 to 04-28-2023

Instructor: Meng, Fanjun

Room: Maryland 202

Status: Open

Seats Available: 11/20

PosTag(s): n/a

Introduction to Topology AS.110.413 (01)

Topological spaces, connectedness, compactness, quotient spaces, metric spaces, function spaces. An introduction to algebraic topology: covering spaces, the fundamental group, and other topics as time permits.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 10:30AM - 11:45AM 01-23-2023 to 04-28-2023

Instructor: Iyengar, Ashwin

Room: Maryland 104

Status: Open

Seats Available: 1/20

PosTag(s): n/a

Honors Analysis II AS.110.416 (01)

Lebesgue integration and differentiation. Elementary Hilbert and Banach space theory. Baire category theorem. Continuation of AS.110.415, introduction to real analysis.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 01-23-2023 to 04-28-2023

Instructor: Lu, Fei

Room: Maryland 104

Status: Open

Seats Available: 9/20

PosTag(s): n/a

Partial Differential Equations AS.110.417 (01)

This course is aimed at a first exposure to the theory of Partial Differential Equations by examples. Basic examples of PDEs (Boundary value problems and initial value problems): Laplace equation, heat equation and wave equation. Method of separation of variables. Fourier series. Examples of wave equations in one and two dimensions. Sturm-Liouville eigenvalue problems and generalized Fourier series. Self-adjoint operators and applications to problems in higher dimensions. Nonhomogeneous PDEs. Green's functions and fundamental solution for the heat equation. Prerequisites:Calculus III. Recommended: 110.405 or 110.415.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 12:00PM - 1:15PM 01-23-2023 to 04-28-2023

Instructor: Sire, Yannick

Room: Ames 218

Status: Open

Seats Available: 7/12

PosTag(s): n/a

Introduction to Harmonic Analysis and Its Applications AS.110.433 (01)

The course is an introduction to methods in harmonic analysis, in particular Fourier series, Fourier integrals, and wavelets. These methods will be introduced rigorously, together with their motivations and applications to the analysis of basic partial differential equations and integral kernels, signal processing, inverse problems, and statistical/machine learning.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 12:00PM - 1:15PM 01-23-2023 to 04-28-2023

Instructor: Maggioni, Mauro

Room: Maryland 109

Status: Open

Seats Available: 7/12

PosTag(s): n/a

Calculus on Manifolds AS.110.441 (01)

This course provides the tools for classical three-dimensional physics and mechanics. This course extends these techniques to the general locally Euclidean spaces (manifolds) needed for an understanding of such things as Maxwell's equations or optimization in higher dimensional contexts, eg. in economics. The course will cover the theory of differential forms and integration. Specific topics include Maxwell's equations in terms of 4D Lorentz geometry, vector (in particular, tangent) bundles, an introduction to de Rham theory, and Sard's theorem on the density of regular values of smooth functions. The course is intended to be useful to mathematics students interested in analysis, differential geometry, and topology, as well as to students in physics and economics.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 3:00PM - 4:15PM 01-23-2023 to 04-28-2023

Instructor: Sy, Mouhamadou

Room: Bloomberg 274

Status: Open

Seats Available: 12/14

PosTag(s): n/a

Mathematical and Computational Foundations of Data Science AS.110.445 (01)

We will cover several topics in the mathematical and computational foundations of Data Science. The emphasis is on fundamental mathematical ideas (basic functional analysis, reproducing kernel Hilbert spaces, concentration inequalities, uniform central limit theorems), basic statistical modeling techniques (e.g. linear regression, parametric and non-parametric methods), basic machine learning techniques for unsupervised (e.g. clustering, manifold learning), supervised (classification, regression), and semi-supervised learning, and corresponding computational aspects (linear algebra, basic linear and nonlinear optimization to attack the problems above). Applications will include statistical signal processing, imaging, inverse problems, graph processing, and problems at the intersection of statistics/machine learning and physical/dynamical systems (e.g. model reduction for stochastic dynamical systems).

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 12:00PM - 1:15PM 01-23-2023 to 04-28-2023

Instructor: Hazratpour, Sina

Room: Shaffer 300

Status: Open

Seats Available: 22/55

PosTag(s): CSCI-OTHER

Data Analytics Workshop AS.110.100 (41)

In this two-week pre-college program, students work in groups to construct and present a data analysis project which collects, organizes, cleanses, and visualizes a dataset of their choosing. Topics include exploratory data analysis, data visualization, probability distributions, data scraping and cleansing, the basics of hypothesis testing, and regression modeling. Students will primarily use Microsoft Excel. Programs like Octave (Matlab), and Octoparse, will also be introduced to help students learn the basics of data analytics.

Credits: 1.00

Level: Lower Level Undergraduate

Days/Times: 06-26-2023 to 07-07-2023

Instructor: Zoll, Aaron Joshua

Room:

Status: Open

Seats Available: 9/25

PosTag(s): n/a

Data Analytics Workshop AS.110.100 (51)

In this two-week pre-college program, students work in groups to construct and present a data analysis project which collects, organizes, cleanses, and visualizes a dataset of their choosing. Topics include exploratory data analysis, data visualization, probability distributions, data scraping and cleansing, the basics of hypothesis testing, and regression modeling. Students will primarily use Microsoft Excel. Programs like Octave (Matlab), and Octoparse, will also be introduced to help students learn the basics of data analytics.

Credits: 1.00

Level: Lower Level Undergraduate

Days/Times: 07-10-2023 to 07-21-2023

Instructor: Zoll, Aaron Joshua

Room:

Status: Open

Seats Available: 12/25

PosTag(s): n/a

Data Analytics Workshop AS.110.100 (61)

In this two-week pre-college program, students work in groups to construct and present a data analysis project which collects, organizes, cleanses, and visualizes a dataset of their choosing. Topics include exploratory data analysis, data visualization, probability distributions, data scraping and cleansing, the basics of hypothesis testing, and regression modeling. Students will primarily use Microsoft Excel. Programs like Octave (Matlab), and Octoparse, will also be introduced to help students learn the basics of data analytics.

Credits: 1.00

Level: Lower Level Undergraduate

Days/Times: 07-24-2023 to 08-04-2023

Instructor: Zoll, Aaron Joshua

Room:

Status: Open

Seats Available: 15/25

PosTag(s): n/a

Calculus I (Physical Sciences & Engineering) AS.110.108 (21)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MTWTh 9:00AM - 11:30AM 07-03-2023 to 08-04-2023

Instructor: Huang, Fan

Room: Gilman 119

Status: Open

Seats Available: 20/30

PosTag(s): ROBO-CMMA

Linear Algebra AS.110.201 (11)

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MTWTh 9:00AM - 11:30AM 05-30-2023 to 06-30-2023

Instructor: Cutrone, Joseph W

Room: Hodson 216

Status: Open

Seats Available: 25/30

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (21)

Calculus of Several Variables. Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MTWTh 1:00PM - 3:30PM 07-03-2023 to 08-04-2023

Instructor: Shumakovitch, Alexander N

Room: Maryland 110

Status: Open

Seats Available: 22/30

PosTag(s): ROBO-CMMA

FYS: The Mathematics of Politics, Democracy, and Social Choice AS.001.184 (01)

This First-Year Seminar is designed for students of all backgrounds to provide a mathematical introduction to social choice theory, weighted voting systems, apportionment methods, and gerrymandering. In the search for ideal ways to make certain kinds of political decisions, a lot of wasted effort could be averted if mathematics could determine that finding such an ideal were actually possible in the first place. The seminar will analyze data from recent US elections as well as provide historical context to modern discussions in politics, culminating in a mathematical analysis of the US Electoral College. Case studies, future implications, and comparisons to other governing bodies outside the US will be used to apply the theory of the course. Students will use Microsoft Excel to analyze data sets. There are no mathematical prerequisites for this course.

Credits: 3.00

Level: Lower Level Undergraduate

Days/Times: TTh 1:30PM - 2:45PM 08-28-2023 to 12-08-2023

Instructor: Cutrone, Joseph W

Room: Gilman 217

Status: Waitlist Only

Seats Available: 0/12

PosTag(s): n/a

Precalculus AS.110.105 (01)

This course provides students with the background necessary for the study of calculus. It begins with a review of the coordinate plane, linear equations, and inequalities, and moves purposefully into the study of functions. Students will explore the nature of graphs and deepen their understanding of polynomial, rational, trigonometric, exponential, and logarithmic functions, and will be introduced to complex numbers, parametric equations, and the difference quotient.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 9:00AM - 9:50AM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Doan, Lam

Room: Hodson 313

Status: Open

Seats Available: 1/30

PosTag(s): n/a

Calculus I (Biology and Social Sciences) AS.110.106 (01)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM 08-28-2023 to 12-08-2023

Instructor: Huang, Fan

Room: Remsen Hall 101

Status: Open

Seats Available: 4/24

PosTag(s): ROBO-CMMA

Calculus I (Biology and Social Sciences) AS.110.106 (02)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Huang, Fan

Room: Remsen Hall 101

Status: Open

Seats Available: 1/24

PosTag(s): ROBO-CMMA

Calculus I (Biology and Social Sciences) AS.110.106 (03)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 6:00PM - 6:50PM 08-28-2023 to 12-08-2023

Instructor: Huang, Fan

Room: Remsen Hall 101

Status: Open

Seats Available: 4/24

PosTag(s): ROBO-CMMA

Calculus I (Biology and Social Sciences) AS.110.106 (04)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Calculus I (Biology and Social Sciences) AS.110.106 (05)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Calculus I (Biology and Social Sciences) AS.110.106 (06)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Calculus I (Biology and Social Sciences) AS.110.106 (07)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 3:00PM - 3:50PM 08-28-2023 to 12-08-2023

Instructor: Mejia Gomez, Tomas

Room: Shaffer 3

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus I (Biology and Social Sciences) AS.110.106 (08)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 3:00PM - 3:50PM 08-28-2023 to 12-08-2023

Instructor: Mejia Gomez, Tomas

Room: Shaffer 3

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus I (Biology and Social Sciences) AS.110.106 (09)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Mejia Gomez, Tomas

Room: Shaffer 3

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus I (Biology and Social Sciences) AS.110.106 (10)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM 08-28-2023 to 12-08-2023

Instructor: Mejia Gomez, Tomas

Room: Shaffer 3

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus I (Biology and Social Sciences) AS.110.106 (11)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Calculus I (Biology and Social Sciences) AS.110.106 (12)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Calculus I (Biology and Social Sciences) AS.110.106 (13)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Many applications to the biological and social sciences will be discussed.

Calculus II (For Biological and Social Science) AS.110.107 (01)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM 08-28-2023 to 12-08-2023

Instructor: Park, Chamsol

Room: Olin 305

Status: Open

Seats Available: 1/24

PosTag(s): ROBO-CMMA

Calculus II (For Biological and Social Science) AS.110.107 (02)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Park, Chamsol

Room: Olin 305

Status: Open

Seats Available: 3/24

PosTag(s): ROBO-CMMA

Calculus II (For Biological and Social Science) AS.110.107 (03)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Calculus II (For Biological and Social Science) AS.110.107 (04)

Differential and integral Calculus. Includes analytic geometry, functions, limits, integrals and derivatives, introduction to differential equations, functions of several variables, linear systems, applications for systems of linear differential equations, probability distributions. Applications to the biological and social sciences will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Calculus I (Physical Sciences & Engineering) AS.110.108 (01)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Pezzi, Daniel Joseph

Room: Mergenthaler 111

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus I (Physical Sciences & Engineering) AS.110.108 (02)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 6:00PM - 6:50PM 08-28-2023 to 12-08-2023

Instructor: Pezzi, Daniel Joseph

Room: Mergenthaler 111

Status: Open

Seats Available: 13/24

PosTag(s): ROBO-CMMA

Calculus I (Physical Sciences & Engineering) AS.110.108 (03)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus I (Physical Sciences & Engineering) AS.110.108 (04)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Sun, Yuchin

Room: Maryland 110

Status: Open

Seats Available: 1/24

PosTag(s): ROBO-CMMA

Calculus I (Physical Sciences & Engineering) AS.110.108 (05)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM 08-28-2023 to 12-08-2023

Instructor: Sun, Yuchin

Room: Maryland 110

Status: Open

Seats Available: 2/24

PosTag(s): ROBO-CMMA

Calculus I (Physical Sciences & Engineering) AS.110.108 (06)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus I (Physical Sciences & Engineering) AS.110.108 (07)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines.

Calculus II (For Physical Sciences and Engineering) AS.110.109 (01)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM 08-28-2023 to 12-08-2023

Instructor: Iyengar, Ashwin

Room: Shaffer 301

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus II (For Physical Sciences and Engineering) AS.110.109 (02)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 6:00PM - 6:50PM 08-28-2023 to 12-08-2023

Instructor: Iyengar, Ashwin

Room: Shaffer 301

Status: Open

Seats Available: 7/24

PosTag(s): ROBO-CMMA

Calculus II (For Physical Sciences and Engineering) AS.110.109 (03)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Calculus II (For Physical Sciences and Engineering) AS.110.109 (04)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Iyengar, Ashwin

Room: Krieger 205

Status: Open

Seats Available: 2/24

PosTag(s): ROBO-CMMA

Calculus II (For Physical Sciences and Engineering) AS.110.109 (05)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM 08-28-2023 to 12-08-2023

Instructor: Iyengar, Ashwin

Room: Krieger 205

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus II (For Physical Sciences and Engineering) AS.110.109 (06)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Calculus II (For Physical Sciences and Engineering) AS.110.109 (07)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

Calculus II (For Physical Sciences and Engineering) AS.110.109 (08)

Differential and integral calculus. Includes analytic geometry, functions, limits, integrals and derivatives, polar coordinates, parametric equations, Taylor's theorem and applications, infinite sequences and series. Some applications to the physical sciences and engineering will be discussed, and the courses are designed to meet the needs of students in these disciplines. Recommended Course Background: Grade of C- or Better in AS.110.106 or AS.110.108, or a 5 on the AP AB exam.

This is an honors alternative to the Calculus sequences AS.110.106-AS.110.107 or AS.110.108-AS.110.109 and meets the general requirement for both Calculus I and Calculus II (although the credit hours count for only one course). It is a more theoretical treatment of one variable differential and integral calculus and is based on our modern understanding of the real number system as explained by Cantor, Dedekind, and Weierstrass. Students who want to know the "why's and how's" of Calculus will find this course rewarding. Previous background in Calculus is not assumed. Students will learn differential Calculus (derivatives, differentiation, chain rule, optimization, related rates, etc), the theory of integration, the fundamental theorem(s) of Calculus, applications of integration, and Taylor series. Students should have a strong ability to learn mathematics quickly and on a higher level than that of the regular Calculus sequences.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 08-28-2023 to 12-08-2023

Instructor: Lin, Milton

Room: Krieger 304

Status: Open

Seats Available: 5/18

PosTag(s): n/a

Linear Algebra AS.110.201 (01)

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM 08-28-2023 to 12-08-2023

Instructor: Shumakovitch, Alexander N

Room: Krieger 205

Status: Open

Seats Available: 2/24

PosTag(s): ROBO-CMMA

Linear Algebra AS.110.201 (02)

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Shumakovitch, Alexander N

Room: Krieger 205

Status: Open

Seats Available: 3/24

PosTag(s): ROBO-CMMA

Linear Algebra AS.110.201 (03)

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 10:00AM - 10:50AM, T 6:00PM - 6:50PM 08-28-2023 to 12-08-2023

Instructor: Shumakovitch, Alexander N

Room: Krieger 205

Status: Open

Seats Available: 5/24

PosTag(s): ROBO-CMMA

Linear Algebra AS.110.201 (04)

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Vector spaces, matrices, and linear transformations. Solutions of systems of linear equations. Eigenvalues, eigenvectors, and diagonalization of matrices. Applications to differential equations.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 1:30PM - 2:20PM 08-28-2023 to 12-08-2023

Instructor: Verdugo, Paula

Room: Hodson 110

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (02)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 3:00PM - 3:50PM 08-28-2023 to 12-08-2023

Instructor: Verdugo, Paula

Room: Hodson 110

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (03)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Verdugo, Paula

Room: Hodson 110

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (04)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM 08-28-2023 to 12-08-2023

Instructor: Verdugo, Paula

Room: Hodson 110

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (05)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 12:00PM - 12:50PM, T 3:00PM - 3:50PM 08-28-2023 to 12-08-2023

Instructor: Verdugo, Paula

Room: Remsen Hall 101

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (09)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 12:00PM - 12:50PM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Verdugo, Paula

Room: Remsen Hall 101

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (10)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MWF 12:00PM - 12:50PM, T 6:00PM - 6:50PM 08-28-2023 to 12-08-2023

Instructor: Verdugo, Paula

Room: Remsen Hall 101

Status: Waitlist Only

Seats Available: 0/25

PosTag(s): ROBO-CMMA

Calculus III AS.110.202 (11)

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

Calculus of functions of more than one variable: partial derivatives, and applications; multiple integrals, line and surface integrals; Green's Theorem, Stokes' Theorem, and Gauss' Divergence Theorem.

This course includes the material in AS.110.201 with additional applications and theory, and is recommended only for mathematically able students majoring in physical science, engineering, or mathematics who are interested in a proof-based version of linear algebra. This course can serve as an Introduction to Proofs (IP) course.
Prerequisites: Grade of B+ or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Lower Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 08-28-2023 to 12-08-2023

Instructor: Lindblad, Hans; Staff

Room: Hodson 211

Status: Open

Seats Available: 7/26

PosTag(s): ROBO-CMMA

Introduction to Proofs AS.110.301 (01)

This course will provide a practical introduction to mathematical proofs with the aim of developing fluency in the language of mathematics, which itself is often described as “the language of the universe.” Along with a library of proof techniques, we shall tour propositional logic, set theory, cardinal arithmetic, and metric topology and explore “proof relevant” mathematics by interacting with a computer proof assistant. This course on the construction of mathematical proof will conclude with a deconstruction of mathematical proof, interrogating the extent to which proof serves as a means to discover universal truths and assessing the mechanisms by which the mathematical community achieves consensus regarding whether a claimed result has been proven.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 9:00AM - 10:15AM, F 9:00AM - 9:50AM 08-28-2023 to 12-08-2023

Instructor: Hazratpour, Sina

Room: Krieger 204

Status: Open

Seats Available: 22/26

PosTag(s): n/a

Differential Equations and Applications AS.110.302 (01)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MWF 12:00PM - 12:50PM, T 4:30PM - 5:20PM 08-28-2023 to 12-08-2023

Instructor: Brown, Richard

Room: Gilman 50

Status: Waitlist Only

Seats Available: 0/24

PosTag(s): n/a

Differential Equations and Applications AS.110.302 (02)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Differential Equations and Applications AS.110.302 (03)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Differential Equations and Applications AS.110.302 (04)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MWF 1:30PM - 2:20PM, T 3:00PM - 3:50PM 08-28-2023 to 12-08-2023

Instructor: Restrepo Montoya, Daniel Eduardo

Room: Shaffer 303

Status: Open

Seats Available: 1/24

PosTag(s): n/a

Differential Equations and Applications AS.110.302 (05)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

Differential Equations and Applications AS.110.302 (06)

This is a course in ordinary differential equations (ODEs), equations involving an unknown function of one independent variable and some of its derivatives, and is primarily a course in the study of the structure of and techniques for solving ODEs as mathematical models. Specific topics include first and second ODEs of various types, systems of linear differential equations, autonomous systems, and the qualitative and quantitative analysis of nonlinear systems of first-order ODEs. Laplace transforms, series solutions and the basics of numerical solutions are included as extra topics.
Prerequisites: Grade of C- or better in 110.107 or 110.109 or 110.113, or a 5 on the AP BC exam.
Area: Quantitative and Mathematical Sciences.

The student is provided with many historical examples of topics, each of which serves as an illustration of and provides a background for many years of current research in number theory. Primes and prime factorization, congruences, Euler's function, quadratic reciprocity, primitive roots, solutions to polynomial congruences (Chevalley's theorem), Diophantine equations including the Pythagorean and Pell equations, Gaussian integers, Dirichlet's theorem on primes.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 9:00AM - 10:15AM, F 9:00AM - 9:50AM 08-28-2023 to 12-08-2023

Instructor: Kitchloo, Nitya

Room: Bloomberg 276

Status: Open

Seats Available: 12/19

PosTag(s): n/a

Methods of Complex Analysis AS.110.311 (01)

This course is an introduction to the theory of functions of one complex variable. Its emphasis is on techniques and applications, and it serves as a basis for more advanced courses. Functions of a complex variable and their derivatives; power series and Laurent expansions; Cauchy integral theorem and formula; calculus of residues and contour integrals; harmonic functions.

An introduction to the basic notions of modern abstract algebra and can serve as as Introduction to Proofs (IP) course. This course is an introduction to group theory, with an emphasis on concrete examples, and especially on geometric symmetry groups. The course will introduce basic notions (groups, subgroups, homomorphisms, quotients) and prove foundational results (Lagrange's theorem, Cauchy's theorem, orbit-counting techniques, the classification of finite abelian groups). Examples to be discussed include permutation groups, dihedral groups, matrix groups, and finite rotation groups, culminating in the classification of the wallpaper groups.
Prerequisites: Grade of C- or better in 110.201 or 110.212
Area: Quantitative and Mathematical Sciences.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MW 12:00PM - 1:15PM, F 12:00PM - 12:50PM 08-28-2023 to 12-08-2023

Instructor: Gregoric, Rok

Room: Bloomberg 172

Status: Open

Seats Available: 12/18

PosTag(s): n/a

Real Analysis I AS.110.405 (01)

This course is designed to give a firm grounding in the basic tools of analysis. It is recommended as preparation (but may not be a prerequisite) for other advanced analysis courses and may be taken as an Introduction to Proofs (IP) course. Topics include the formal properties of real and complex number systems, topology of metric spaces, limits, continuity, infinite sequences and series, differentiation, Riemann-Stieltjes integration.
Prerequisites: Grade of C- or better in 110.201 or 110.212 and 110.202 or 110.211

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 08-28-2023 to 12-08-2023

Instructor: Brown, Richard

Room: Hackerman 320

Status: Open

Seats Available: 8/26

PosTag(s): BMED-CB

Honors Complex Analysis AS.110.407 (01)

AS.110.407. Honors Complex Analysis. 4.00 Credits.
This course is an introduction to the theory of functions of one complex variable for honors students. Its emphasis is on techniques and applications, and can serve as an Introduction to Proofs (IP) course. Topics will include functions of a complex variable and their derivatives; power series and Laurent expansions; Cauchy integral theorem and formula; calculus of residues and contour integrals; harmonic functions, as well as applications to number theory and harmonic analysis.
Area: Quantitative and Mathematical Sciences.
This is not an Introduction to Proofs course (IP) and may not be taken as a first proof-based mathematics course except at the discretion of the instructor. This course satisfies a core requirement of the mathematics major as a second analysis course, and is a core requirement for honors in the major.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 12:00PM - 1:15PM 08-28-2023 to 12-08-2023

Instructor: Gepner, David James

Room: Bloomberg 276

Status: Open

Seats Available: 5/19

PosTag(s): n/a

Honors Analysis I AS.110.415 (01)

This highly theoretical sequence in analysis is reserved for the most able students. The sequence covers the real number system, metric spaces, basic functional analysis, the Lebesgue integral, and other topics.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM 08-28-2023 to 12-08-2023

Instructor: Park, Chamsol

Room: Bloomberg 276

Status: Open

Seats Available: 8/19

PosTag(s): n/a

Representation Theory AS.110.422 (01)

This course will focus on the basic theory of representations of finite groups in characteristic zero: Schur's Lemma, Mashcke's Theorem and complete reducibility, character tables and orthogonality, direct sums and tensor products. The main examples we will try to understand are the representation theory of the symmetric group and the general linear group over a finite field. If time permits, the theory of Brauer characters and modular representations will be introduced.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 1:30PM - 2:45PM 08-28-2023 to 12-08-2023

Instructor: Dalal, Rahul

Room: Gilman 186

Status: Open

Seats Available: 14/19

PosTag(s): n/a

Introduction to Algebraic Geometry AS.110.435 (01)

Algebraic geometry studies zeros of polynomials in several variables and is based on the use of abstract algebraic techniques, mainly from commutative algebra, for solving geometric problems about these sets of zeros. The fundamental objects of study are algebraic varieties which are the geometric manifestations of solutions of systems of polynomial equations. Algebraic geometry occupies a central place in modern mathematics and has multiple conceptual connections with diverse fields such as complex analysis, topology and number theory.
This course aims to provide to an undergraduate student majoring in mathematics the fundamental background to approach the study of algebraic geometry by providing the needed abstract knowledge also complemented by several examples and applications.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 4:30PM - 5:45PM 08-28-2023 to 12-08-2023

Instructor: Consani, Caterina (Katia)

Room: Krieger 411

Status: Open

Seats Available: 2/8

PosTag(s): n/a

Introduction To Differential Geometry AS.110.439 (01)

Theory of curves and surfaces in Euclidean space: Frenet equations, fundamental forms, curvatures of a surface, theorems of Gauss and Mainardi-Codazzi, curves on a surface; introduction to tensor analysis and Riemannian geometry; theorema egregium; elementary global theorems.

Credits: 4.00

Level: Upper Level Undergraduate

Days/Times: TTh 1:30PM - 2:45PM 08-28-2023 to 12-08-2023

Instructor: Duncan, Jonah Alexander Jacob

Room: Bloomberg 276

Status: Open

Seats Available: 13/19

PosTag(s): n/a

Course # (Section)

Title

Day/Times

Instructor

Location

Term

Course Details

AS.110.106 (01)

Calculus I (Biology and Social Sciences)

MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM

Sun, Yuchin

Homewood Campus

Spring 2023

AS.110.106 (02)

Calculus I (Biology and Social Sciences)

MWF 10:00AM - 10:50AM, Th 3:00PM - 3:50PM

Sun, Yuchin

Homewood Campus

Spring 2023

AS.110.106 (03)

Calculus I (Biology and Social Sciences)

MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM

Sun, Yuchin

Homewood Campus

Spring 2023

AS.110.107 (01)

Calculus II (For Biological and Social Science)

MWF 10:00AM - 10:50AM, Th 4:30PM - 5:20PM

Gruber, Sean

Homewood Campus

Spring 2023

AS.110.107 (02)

Calculus II (For Biological and Social Science)

MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM

Gruber, Sean

Homewood Campus

Spring 2023

AS.110.107 (03)

Calculus II (For Biological and Social Science)

MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM

Gruber, Sean

Homewood Campus

Spring 2023

AS.110.107 (04)

Calculus II (For Biological and Social Science)

MWF 10:00AM - 10:50AM, Th 3:00PM - 3:50PM

Gruber, Sean

Homewood Campus

Spring 2023

AS.110.107 (05)

Calculus II (For Biological and Social Science)

MWF 10:00AM - 10:50AM, Th 6:00PM - 6:50PM

Gruber, Sean

Homewood Campus

Spring 2023

AS.110.107 (06)

Calculus II (For Biological and Social Science)

MWF 11:00AM - 11:50AM, T 3:00PM - 3:50PM

Brown, Richard

Homewood Campus

Spring 2023

AS.110.107 (07)

Calculus II (For Biological and Social Science)

MWF 11:00AM - 11:50AM, T 4:30PM - 5:20PM

Brown, Richard

Homewood Campus

Spring 2023

AS.110.107 (08)

Calculus II (For Biological and Social Science)

MWF 11:00AM - 11:50AM, Th 3:00PM - 3:50PM

Brown, Richard

Homewood Campus

Spring 2023

AS.110.107 (09)

Calculus II (For Biological and Social Science)

MWF 11:00AM - 11:50AM, Th 4:30PM - 5:20PM

Brown, Richard

Homewood Campus

Spring 2023

AS.110.107 (10)

Calculus II (For Biological and Social Science)

MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM

Brown, Richard

Homewood Campus

Spring 2023

AS.110.107 (11)

Calculus II (For Biological and Social Science)

MWF 11:00AM - 11:50AM, Th 6:00PM - 6:50PM

Brown, Richard

Homewood Campus

Spring 2023

AS.110.109 (01)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, T 1:30PM - 2:20PM

Braley, Emily

Homewood Campus

Spring 2023

AS.110.109 (02)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM

Braley, Emily

Homewood Campus

Spring 2023

AS.110.109 (03)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM

Braley, Emily

Homewood Campus

Spring 2023

AS.110.109 (04)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, T 6:00PM - 6:50PM

Braley, Emily

Homewood Campus

Spring 2023

AS.110.109 (05)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, Th 1:30PM - 2:20PM

Braley, Emily

Homewood Campus

Spring 2023

AS.110.109 (06)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, Th 3:00PM - 3:50PM

Braley, Emily

Homewood Campus

Spring 2023

AS.110.109 (07)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, Th 4:30PM - 5:20PM

Braley, Emily

Homewood Campus

Spring 2023

AS.110.109 (08)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, Th 6:00PM - 6:50PM

Braley, Emily

Homewood Campus

Spring 2023

AS.110.201 (01)

Linear Algebra

MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM

Weinberger, Jonathan Maximilian Lajos

Homewood Campus

Spring 2023

AS.110.201 (02)

Linear Algebra

MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM

Weinberger, Jonathan Maximilian Lajos

Homewood Campus

Spring 2023

AS.110.201 (03)

Linear Algebra

MWF 10:00AM - 10:50AM, Th 1:30PM - 2:20PM

Weinberger, Jonathan Maximilian Lajos

Homewood Campus

Spring 2023

AS.110.201 (04)

Linear Algebra

MWF 10:00AM - 10:50AM, Th 3:00PM - 3:50PM

Weinberger, Jonathan Maximilian Lajos

Homewood Campus

Spring 2023

AS.110.201 (05)

Linear Algebra

MWF 11:00AM - 11:50AM, T 1:30PM - 2:20PM

Weinberger, Jonathan Maximilian Lajos

Homewood Campus

Spring 2023

AS.110.201 (06)

Linear Algebra

MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM

Weinberger, Jonathan Maximilian Lajos

Homewood Campus

Spring 2023

AS.110.201 (07)

Linear Algebra

MWF 11:00AM - 11:50AM, Th 3:00PM - 3:50PM

Weinberger, Jonathan Maximilian Lajos

Homewood Campus

Spring 2023

AS.110.201 (08)

Linear Algebra

MWF 11:00AM - 11:50AM, Th 4:30PM - 5:20PM

Weinberger, Jonathan Maximilian Lajos

Homewood Campus

Spring 2023

AS.110.202 (01)

Calculus III

MWF 11:00AM - 11:50AM, T 3:00PM - 3:50PM

Wang, Xiong

Homewood Campus

Spring 2023

AS.110.202 (02)

Calculus III

MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM

Wang, Xiong

Homewood Campus

Spring 2023

AS.110.202 (03)

Calculus III

MWF 11:00AM - 11:50AM, Th 3:00PM - 3:50PM

Wang, Xiong

Homewood Campus

Spring 2023

AS.110.202 (04)

Calculus III

MWF 11:00AM - 11:50AM, Th 4:30PM - 5:20PM

Wang, Xiong

Homewood Campus

Spring 2023

AS.110.202 (05)

Calculus III

MWF 12:00PM - 12:50PM, T 3:00PM - 3:50PM

Wang, Xiong

Homewood Campus

Spring 2023

AS.110.202 (06)

Calculus III

MWF 12:00PM - 12:50PM, T 4:30PM - 5:20PM

Wang, Xiong

Homewood Campus

Spring 2023

AS.110.202 (07)

Calculus III

MWF 12:00PM - 12:50PM, Th 3:00PM - 3:50PM

Wang, Xiong

Homewood Campus

Spring 2023

AS.110.202 (08)

Calculus III

MWF 12:00PM - 12:50PM, Th 6:00PM - 6:50PM

Wang, Xiong

Homewood Campus

Spring 2023

AS.110.211 (01)

Honors Multivariable Calculus

MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM

Mese, CHIKAKO

Homewood Campus

Spring 2023

AS.110.212 (01)

Honors Linear Algebra

MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM

Sarazola Duarte, Maru Eugenia

Homewood Campus

Spring 2023

AS.110.301 (01)

Introduction to Proofs

MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM

Campion, Tim Francis

Homewood Campus

Spring 2023

AS.110.302 (01)

Differential Equations and Applications

MWF 12:00PM - 12:50PM, T 4:30PM - 5:20PM

Dodson, Benjamin

Homewood Campus

Spring 2023

AS.110.302 (02)

Differential Equations and Applications

MWF 12:00PM - 12:50PM, T 6:00PM - 6:50PM

Dodson, Benjamin

Homewood Campus

Spring 2023

AS.110.302 (03)

Differential Equations and Applications

MWF 12:00PM - 12:50PM, Th 3:00PM - 3:50PM

Dodson, Benjamin

Homewood Campus

Spring 2023

AS.110.302 (04)

Differential Equations and Applications

MWF 12:00PM - 12:50PM, Th 4:30PM - 5:20PM

Dodson, Benjamin

Homewood Campus

Spring 2023

AS.110.302 (05)

Differential Equations and Applications

MWF 1:30PM - 2:20PM, T 3:00PM - 3:50PM

Dodson, Benjamin

Homewood Campus

Spring 2023

AS.110.302 (06)

Differential Equations and Applications

MWF 1:30PM - 2:20PM, T 4:30PM - 5:20PM

Dodson, Benjamin

Homewood Campus

Spring 2023

AS.110.304 (01)

Elementary Number Theory

TTh 9:00AM - 10:15AM

Li, Huajie

Homewood Campus

Spring 2023

AS.110.311 (01)

Methods of Complex Analysis

TTh 12:00PM - 1:15PM

Zhou, Yifu

Homewood Campus

Spring 2023

AS.110.401 (01)

Introduction to Abstract Algebra

MW 12:00PM - 1:15PM, F 12:00PM - 12:50PM

Shumakovitch, Alexander N

Homewood Campus

Spring 2023

AS.110.405 (01)

Real Analysis I

MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM

Park, Chamsol

Homewood Campus

Spring 2023

AS.110.406 (01)

Real Analysis II

MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM

Sire, Yannick

Homewood Campus

Spring 2023

AS.110.412 (01)

Honors Algebra II

MW 12:00PM - 1:15PM, F 12:00PM - 12:50PM

Meng, Fanjun

Homewood Campus

Spring 2023

AS.110.413 (01)

Introduction to Topology

TTh 10:30AM - 11:45AM

Iyengar, Ashwin

Homewood Campus

Spring 2023

AS.110.416 (01)

Honors Analysis II

MW 1:30PM - 2:45PM, F 1:30PM - 2:20PM

Lu, Fei

Homewood Campus

Spring 2023

AS.110.417 (01)

Partial Differential Equations

TTh 12:00PM - 1:15PM

Sire, Yannick

Homewood Campus

Spring 2023

AS.110.433 (01)

Introduction to Harmonic Analysis and Its Applications

TTh 12:00PM - 1:15PM

Maggioni, Mauro

Homewood Campus

Spring 2023

AS.110.441 (01)

Calculus on Manifolds

TTh 3:00PM - 4:15PM

Sy, Mouhamadou

Homewood Campus

Spring 2023

AS.110.445 (01)

Mathematical and Computational Foundations of Data Science

TTh 12:00PM - 1:15PM

Hazratpour, Sina

Homewood Campus

Spring 2023

AS.110.100 (41)

Data Analytics Workshop

Zoll, Aaron Joshua

Online

Summer 2023

AS.110.100 (51)

Data Analytics Workshop

Zoll, Aaron Joshua

Online

Summer 2023

AS.110.100 (61)

Data Analytics Workshop

Zoll, Aaron Joshua

Online

Summer 2023

AS.110.108 (21)

Calculus I (Physical Sciences & Engineering)

MTWTh 9:00AM - 11:30AM

Huang, Fan

Homewood Campus

Summer 2023

AS.110.201 (11)

Linear Algebra

MTWTh 9:00AM - 11:30AM

Cutrone, Joseph W

Homewood Campus

Summer 2023

AS.110.202 (21)

Calculus III

MTWTh 1:00PM - 3:30PM

Shumakovitch, Alexander N

Homewood Campus

Summer 2023

AS.001.184 (01)

FYS: The Mathematics of Politics, Democracy, and Social Choice

TTh 1:30PM - 2:45PM

Cutrone, Joseph W

Homewood Campus

Fall 2023

AS.110.105 (01)

Precalculus

MWF 9:00AM - 9:50AM, T 4:30PM - 5:20PM

Doan, Lam

Homewood Campus

Fall 2023

AS.110.106 (01)

Calculus I (Biology and Social Sciences)

MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM

Huang, Fan

Homewood Campus

Fall 2023

AS.110.106 (02)

Calculus I (Biology and Social Sciences)

MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM

Huang, Fan

Homewood Campus

Fall 2023

AS.110.106 (03)

Calculus I (Biology and Social Sciences)

MWF 10:00AM - 10:50AM, T 6:00PM - 6:50PM

Huang, Fan

Homewood Campus

Fall 2023

AS.110.106 (04)

Calculus I (Biology and Social Sciences)

MWF 10:00AM - 10:50AM, Th 3:00PM - 3:50PM

Huang, Fan

Homewood Campus

Fall 2023

AS.110.106 (05)

Calculus I (Biology and Social Sciences)

MWF 10:00AM - 10:50AM, Th 4:30PM - 5:20PM

Huang, Fan

Homewood Campus

Fall 2023

AS.110.106 (06)

Calculus I (Biology and Social Sciences)

MWF 10:00AM - 10:50AM, Th 6:00PM - 6:50PM

Huang, Fan

Homewood Campus

Fall 2023

AS.110.106 (07)

Calculus I (Biology and Social Sciences)

MWF 11:00AM - 11:50AM, T 3:00PM - 3:50PM

Mejia Gomez, Tomas

Homewood Campus

Fall 2023

AS.110.106 (08)

Calculus I (Biology and Social Sciences)

MWF 11:00AM - 11:50AM, T 3:00PM - 3:50PM

Mejia Gomez, Tomas

Homewood Campus

Fall 2023

AS.110.106 (09)

Calculus I (Biology and Social Sciences)

MWF 11:00AM - 11:50AM, T 4:30PM - 5:20PM

Mejia Gomez, Tomas

Homewood Campus

Fall 2023

AS.110.106 (10)

Calculus I (Biology and Social Sciences)

MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM

Mejia Gomez, Tomas

Homewood Campus

Fall 2023

AS.110.106 (11)

Calculus I (Biology and Social Sciences)

MWF 11:00AM - 11:50AM, Th 3:00PM - 3:50PM

Mejia Gomez, Tomas

Homewood Campus

Fall 2023

AS.110.106 (12)

Calculus I (Biology and Social Sciences)

MWF 11:00AM - 11:50AM, Th 4:30PM - 5:20PM

Mejia Gomez, Tomas

Homewood Campus

Fall 2023

AS.110.106 (13)

Calculus I (Biology and Social Sciences)

MWF 11:00AM - 11:50AM, Th 6:00PM - 6:50PM

Mejia Gomez, Tomas

Homewood Campus

Fall 2023

AS.110.107 (01)

Calculus II (For Biological and Social Science)

MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM

Park, Chamsol

Homewood Campus

Fall 2023

AS.110.107 (02)

Calculus II (For Biological and Social Science)

MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM

Park, Chamsol

Homewood Campus

Fall 2023

AS.110.107 (03)

Calculus II (For Biological and Social Science)

MWF 10:00AM - 10:50AM, Th 4:30PM - 5:20PM

Park, Chamsol

Homewood Campus

Fall 2023

AS.110.107 (04)

Calculus II (For Biological and Social Science)

MWF 10:00AM - 10:50AM, Th 6:00PM - 6:50PM

Park, Chamsol

Homewood Campus

Fall 2023

AS.110.108 (01)

Calculus I (Physical Sciences & Engineering)

MWF 10:00AM - 10:50AM, T 4:30PM - 5:20PM

Pezzi, Daniel Joseph

Homewood Campus

Fall 2023

AS.110.108 (02)

Calculus I (Physical Sciences & Engineering)

MWF 10:00AM - 10:50AM, T 6:00PM - 6:50PM

Pezzi, Daniel Joseph

Homewood Campus

Fall 2023

AS.110.108 (03)

Calculus I (Physical Sciences & Engineering)

MWF 10:00AM - 10:50AM, Th 4:30PM - 5:20PM

Pezzi, Daniel Joseph

Homewood Campus

Fall 2023

AS.110.108 (04)

Calculus I (Physical Sciences & Engineering)

MWF 11:00AM - 11:50AM, T 4:30PM - 5:20PM

Sun, Yuchin

Homewood Campus

Fall 2023

AS.110.108 (05)

Calculus I (Physical Sciences & Engineering)

MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM

Sun, Yuchin

Homewood Campus

Fall 2023

AS.110.108 (06)

Calculus I (Physical Sciences & Engineering)

MWF 11:00AM - 11:50AM, Th 4:30PM - 5:20PM

Sun, Yuchin

Homewood Campus

Fall 2023

AS.110.108 (07)

Calculus I (Physical Sciences & Engineering)

MWF 11:00AM - 11:50AM, Th 6:00PM - 6:50PM

Sun, Yuchin

Homewood Campus

Fall 2023

AS.110.109 (01)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, T 3:00PM - 3:50PM

Iyengar, Ashwin

Homewood Campus

Fall 2023

AS.110.109 (02)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, T 6:00PM - 6:50PM

Iyengar, Ashwin

Homewood Campus

Fall 2023

AS.110.109 (03)

Calculus II (For Physical Sciences and Engineering)

MWF 10:00AM - 10:50AM, Th 4:30PM - 5:20PM

Iyengar, Ashwin

Homewood Campus

Fall 2023

AS.110.109 (04)

Calculus II (For Physical Sciences and Engineering)

MWF 11:00AM - 11:50AM, T 4:30PM - 5:20PM

Iyengar, Ashwin

Homewood Campus

Fall 2023

AS.110.109 (05)

Calculus II (For Physical Sciences and Engineering)

MWF 11:00AM - 11:50AM, T 6:00PM - 6:50PM

Iyengar, Ashwin

Homewood Campus

Fall 2023

AS.110.109 (06)

Calculus II (For Physical Sciences and Engineering)

MWF 11:00AM - 11:50AM, Th 3:00PM - 3:50PM

Iyengar, Ashwin

Homewood Campus

Fall 2023

AS.110.109 (07)

Calculus II (For Physical Sciences and Engineering)

MWF 11:00AM - 11:50AM, Th 4:30PM - 5:20PM

Iyengar, Ashwin

Homewood Campus

Fall 2023

AS.110.109 (08)

Calculus II (For Physical Sciences and Engineering)