Courses
Mathematical Sciences
Undergraduate
Lower-Division
- MATH 11000 Fundamentals of Algebra (4 cr.) P: MATH 00100 (with a minimum grade of C-) or placement. Intended primarily for liberal arts and business majors. Integers, rational and real numbers, exponents, decimals, polynomials, equations, word problems, factoring, roots and radicals, logarithms, quadratic equations, graphing, linear equations in more than one variable, and inequalities. This course satisfies the prerequisites needed for MATH M118, M119, 13000, 13600, and STAT 30100.
- MATH 11100 Fundamentals of Algebra (4 cr.) P: MATH 00100 (with a minimum grade of C) or placement.Fall, spring, summer. Real numbers, linear equations and inequalities, systems of equations, polynomials, exponents, and logarithmic functions. Covers material in the second year of high school algebra. This course satisfies the prerequisites needed for MATH M118, M119, 13000, 13600, 15300, 15400, and STAT 30100.
- MATH-M 118 Finite Mathematics (3 cr.) P: 11100 or 11000 (with a minimum grade of C-) or equivalent. Fall, spring, summer. Set theory, logic, permutations, combinations, simple probability, conditional probability, Markov chains. An honors option is available in this course.
- MATH-S 118 Honors Finite Mathematics (3 cr.) P: Mastery of two years of high school algebra and consent of instructor. Designed for students of outstanding ability in mathematics. Covers all material of M118 and additional topics from statistics and game theory. Computers may be used in this course, but no previous experience is assumed.
- MATH-M 119 Brief Survey of Calculus I (3 cr.) P: 11100 or 11000 (with a minimum grade of C-) or equivalent. Fall, Spring, Summer. Sets, limits, derivatives, integrals, and applications. An honors option is available in this course.
- MATH-S 119 Honors Brief Survey of Calculus I (3 cr.) P: Mastery of two years of high school algebra and consent of instructor. Designed for students of outstanding ability in mathematics. Covers all material of M119 and additional topics. Computers may be used in this course, but no previous experience is assumed.
- MATH 12300 Elementary Concepts of Mathematics (3 cr.) Mathematics for liberal arts students; experiments and activities that provide an introduction to inductive and deductive reasoning, number sequences, functions and curves, probability, statistics, topology, metric measurement, and computers.
- MATH 13000 Mathematics for Elementary Teachers I (3 cr.) P: 11100 or 11000 (with a minimum grade of C-) or equivalent. Fall, spring, summer. Numeration systems, mathematical reasoning, integers, rationals, reals, properties of number systems, decimal and fractional notations, and problem solving.
- MATH 13100 Mathematics for Elementary Teachers II (3 cr.) P: 13000. Fall, spring, summer. Number systems: numbers of arithmetic, integers, rationals, reals, mathematical systems, decimal and fractional notations; probability, simple and compound events, algebra review.
- MATH 13200 Mathematics for Elementary Teachers III (3 cr.) P: 13000 and one year of high school geometry. Fall, spring, summer. Rationals, reals, geometric relationships, properties of geometric figures, one-, two-, and three-dimensional measurement, and problem solving.
- MATH 13600 Mathematics for Elementary Teachers (6 cr.) P: 11100 or 11000 (with a minimum grade of C) or equivalent, and one year of high school geometry. Fall, spring, summer. 13600 is a one-semester version of 13000 and 13200. Not open to students with credit in 13000 or 13200.
- MATH 15300 Algebra and Trigonometry I (3 cr.) P: 11100 (with a minimum grade of C) or placement. Fall, spring, summer. 15300-15400 is a two-semester version of 15900. Not open to students with credit in 15900. 15300 covers college-level algebra and, together with 15400, provides preparation for 16500, 22100, and 23100.
- MATH 15400 Algebra and Trigonometry II (3 cr.) P: 15300 (with a minimum grade of C) or equivalent. Fall, spring, summer. 15300-15400 is a two-semester version of 15900. Not open to students with credit in 15900. 15400 covers college-level trigonometry and, together with 15300, provides preparation for 16500, 22100, and 23100.
- MATH 15900 Precalculus (5 cr.) P: 11100 (with a minimum grade of B) or placement. Fall, spring. 15900 is a one-semester version of 15300-15400. Not open to students with credit in 15300 or 15400. 15900 covers college-level algebra and trigonometry and provides preparation for 16500, 22100, and 23100.
- MATH 22200 Calculus for Technology II (3 cr.) P: 22100 (with a minimum grade of C-). Fall, spring, summer. Differentiation of transcendental functions, methods of integration, power series, Fourier series, and differential equations.
- MATH 16500 Analytic Geometry and Calculus I (4 cr.) P: 15900 or 15400 (minimum grade of C) or equivalent, and one year of high school geometry. Fall, spring, summer I. Introduction to differential and integral calculus of one variable, with applications. Conic sections.
- MATH-S 165 Honors Analytic Geometry and Calculus I (4 cr.) Precalculus or trigonometry and consent of instructor. This course covers the same topics as MATH 16500. However, it is intended for students having a strong interest in mathematics who wish to study the concepts of calculus in more depth and who are seeking mathematical challenge.
- MATH 16600 Analytic Geometry and Calculus II (4 cr.) P: 16500 (minimum grade of C). Fall, spring, summer I. Continuation of MA 16500. Vectors in two and three dimensions. Techniques of integration, infinite series, polar coordinates, surfaces in three dimensions.
- MATH-S 166 Honors Analytic Geometry and Calculus II (4 cr.) P: S165 (minimum grade of B-) or 16500 (minimum grade of A-), and consent of instructor. This course covers the same topics as MATH 16600. However, it is intended for students having a strong interest in mathematics who wish to study the concepts of calculus in more depth and who are seeking mathematical challenge.
- MATH 17100 Multidimensional Mathematics (3 cr.) P: 15900 or 15400 (minimum grade of C) or equivalent, and one year of high school geometry. An introduction to mathematics in more than two dimensions. Graphing of curves, surfaces and functions in three dimensions. Two and three dimensional vector spaces with vector operations. Solving systems of linear equations using matrices. Basic matrix operations and determinants.
- MATH 19000 Topics in Applied Mathematics for Freshmen (3 cr.) Treats applied topics in mathematics at the freshman level. Prerequisites and course material vary with the applications.
- MATH 22100 Calculus for Technology I (3 cr.) P: 15400 or 15900 (with a minimum grade of C-) or equivalent, and one year of geometry. Fall, spring, summer. Analytic geometry, the derivative and applications, and the integral and applications.
- MATH 23100 Calculus for Life Sciences I (3 cr.) P: 15400 or 15900 (with a minimum grade of C-) or equivalent, and one year of geometry. Limits, derivatives and applications. Exponential and logarithmic functions. Integrals, antiderivatives, and the Fundamental Theorem of Calculus. Examples and applications are drawn from the life sciences.
- MATH 23200 Calculus for Life Sciences II (3 cr.) P: 23100 (with a minimum grade of C-). Matrices, functions of several variables, differential equations and solutions with applications. Examples and applications are drawn from the life sciences.
- MATH 00100 Introduction to Algebra (4 cr.) Placement. Fall, spring, summer. Covers the material taught in the first year of high school algebra. Numbers and algebra, integers, rational numbers, equations, polynomials, graphs, systems of equations, inequalities, radicals. Credit does not apply toward any degree.
- MATH 26100 Multivariate Calculus (4 cr.) P: 16400. Equiv. IU MATH M311. Fall, spring, summer. Spatial analytic geometry, vectors, curvilinear motion, curvature, partial differentiation, multiple integration, line integrals, and Green's theorem. An honors option for this course is available. Note: Effective Fall 2009, this course is offered under an updated course description, as below.
- MATH 26600 Ordinary Differential Equations (3 cr.) P: 16400 and 17100 (minimum grade of C in each). Fall, spring, summer. First order equations, second and nth order linear equations, series solutions, solution by Laplace transform, systems of linear equations.
- MATH 27600 Discrete Math (3 cr.) P or C: 16500 or consent of instructor. Spring. Logic, sets, functions, integer algorithms, applications of number theory, mathematical induction, recurrence relations, permutations, combinations, finite probability, relations and partial ordering, and graph algorithms.
- MATH 29000 Topics in Applied Mathematics for Sophomores (3 cr.) Applied topics in mathematics at the sophomore level. Prerequisites and course material vary with the applications.
- MATH 15200 College Algebra (3 cr.) P: MATH 11100 Algebra with a grade of C or better, MATH 11000 Fundamentals of Algebra with a grade of B or better, or placement. (Not available for credit toward graduation in the School of Science.) Typically offered Fall, Spring, Summer. MATH 15200 is a terminal course and not part of a sequence that is meant to be a prerequisite for higher level mathematics courses. MATH 15200 is not considered a prerequisite for higher level mathematics courses. MATH 15200 is not considered a prerequisite for MATH 15400 College Algebra and Trigonometry II. This course is specifically designed for students who do not need the same technical skills as those required by students planning to continue with calculus. There will be an emphasis on applied problems and graphing techniques. Real numbers, linear functions, linear equations, and systems of linear equations, absolute value equations, rational expressions, complex numbers, quadractic equations, exponential and logarithmic functions, circle parabola, and the mathematics of finance including compound interest and annuities are topics covered in this course.
Upper-Division
- MATH 30000 Logic and the Foundations of Algebra (3 cr.) P: 16500. Fall. Logic and the rules of reasoning, theorem proving. Applications to the study of the integers; rational, real, and complex numbers; and polynomials. Bridges the gap between elementary and advanced courses. Recommended for prospective high school teachers.
- MATH 33300 Chaotic Dynamical Systems (3 cr.) P: 16600 or 22200. Spring. The goal of the course is to introduce some of the spectacular new discoveries that have been made in the past twenty years in the field of mathematics known as dynamical systems. It is intended for undergraduate students in mathematics, science, or engineering. It will include a variety of computer experiments using software that is posted on the Web.
- MATH 35100 Elementary Linear Algebra (3 cr.) P: 26100. Not open to students with credit in 51100. Fall, spring. Systems of linear equations, matrices, vector spaces, linear transformations, determinants, inner product spaces, eigenvalues, and applications.
- MATH 39000 Topics in Applied Mathematics for Juniors (3 cr.) Applied topics in mathematics at the junior level. Prerequisites and course material vary with the applications.
- MATH 39800 Internship in Professional Practice (1-3 cr.) P: Approval of Department of Mathematical Sciences. Professional work experience involving significant use of mathematics or statistics. Evaluation of performance by employer and Department of Mathematical Sciences. May count toward major requirements with approval of the Department of Mathematical Sciences. May be repeated with approval of the Department of Mathematical Sciences for a total of 6 credits.
- MATH 41400 Numerical Methods (3 cr.) P: 26600 and a course in a high-level programming language. Not open to students with credit in CSCI 51200. Fall. Error analysis, solution of nonlinear equations, direct and iterative methods for solving linear systems, approximation of functions, numerical differentiation and integration, and numerical solution of ordinary differential equations.
- MATH 42600 Introduction to Applied Mathematics and Modeling (3 cr.) P: 26600 and PHYS 15200. Introduction to problems and methods in applied mathematics and modeling. Formulation of models for phenomena in science and engineering, their solutions, and physical interpretation of results. Examples chosen from solid and fluid mechanics, mechanical systems, diffusion phenomena, traffic flow, and biological processes.
- MATH 44400 Foundations of Analysis (3 cr.) P: 26100. Fall. Set theory, mathematical induction, real numbers, completeness axiom, open and closed sets in Rm, sequences, limits, continuity and uniform continuity, inverse functions, differentiation of functions of one and several variables.
- MATH 44500 Foundations of Analysis II (3 cr.) P: 44400. Spring. Continuation of differentiation, the mean value theorem and applications, the inverse and implicit function theorems, the Riemann integral, the fundamental theorem of calculus, point-wise and uniform convergence, convergence of infinite series, and series of functions.
- MATH 45300 Beginning Abstract Algebra (3 cr.) P: 35100 or consent of instructor. Fall. Basic properties of groups, rings,and fields, with special emphasis on polynomial rings.
- MATH 45600 Introduction to the Theory of Numbers (3 cr.) P: 26100. Divisibility, congruences, quadratic residues, Diophantine equations, and the sequence of primes.
- EDUC-M 457 Methods of Teaching Senior High/Junior High/Middle School Mathematics (2-4 cr.) P: 30 credit hours of mathmatics. Study of methodology, heuristics of problem solving, curriculum design, instructional computing, professional affilia-tions, and teaching of daily lessons in the domain of secondary and/or junior high/ middle school mathematics.
- MATH 46200 Elementary Differential Geometry (3 cr.) P: 35100. Calculus and linear algebra applied to the study of curves and surfaces. Curvature and torsion, Frenet-Serret apparatus and theorem, and fundamental theorem of curves. Transformation of R2, first and second fundamental forms of surfaces, geodesics, parallel translation, isometries, and fundamental theorem of surfaces.
- MATH 46300 Intermediate Euclidean Geometry for Secondary Teachers (3 cr.) P: 30000 and one year of high school geometry, or consent of instructor. Spring. History of geometry. Ruler and compass constructions, and a critique of Euclid. The axiomatic method, models, and incidence geometry. Presentation, discussion and comparison of Hilbert's, Birkhoff's, and SMSG's axiomatic developments.
- MATH 49000 Topics in Mathematics for Undergraduates (1-5 cr.) By arrangement. Open to students only with the consent of the department. Supervised reading and reports in various fields.
- MATH 49100 Seminar in Competitive Math Problem-Solving (1-3 cr.) Approval of the director of undergraduate programs is required. This seminar is designed to prepare students for various national and regional mathematics contests and examinations such as the Putnam Mathematical Competition, the Indiana College Mathematical Competition and the Mathematical Contest in Modeling (MCM), among others. May be repeated twice for credit.
- MATH 49200 Capstone Experience (1-3 cr.) Credits by arrangement.
- MATH 49500 TA Instruction (0 cr.) For teaching assistants. Intended to help prepare TAs to teach by giving them the opportunity to present elementary topics in a classroom setting under the supervision of an experienced teacher who critiques the presentations.
- MATH 42500 Elements of Complex Analysis (3 cr.) P: 26100 Complex numbers and complex-valued functions; differentiation of complex functions; power series, uniform convergence; integration, contour integrals; elementary conformal mapping.
- MATH 37300 Financial Mathematics (3 cr.) P: 26100. An introduction to the theory of finance, including such topics as compound interest, annuities certain, amortization schedules, sinking funds, bonds, and related securities.
- MATH 42100 Linear Programming and Optimization Techniques (3 cr.) P: MATH 26100 and 35100. This course covers a variety of topics in operations research, including solution of linear programming problems by the simplex method, duality theory, transportation problems, assignment problems, network analysis, dynamic programming.
- MATH 42300 Discrete Modeling and Game Theory (3 cr.) P: 26100 P: MATH 26200 or 26600 and MATH 35100 or consent of instructor. Linear programming, mathematical modeling of problems in economics, management, urban administration, and the behavioral sciences.
Advanced Undergraduate and Graduate
- MATH 50400 Real Analysis (3 cr.) P: 444 or consent of instructor. Completeness of the real number system, basic topological properties, compactness, sequences and series, absolute convergence of series, rearrangement of series, properties of continuous functions, the Riemann-Stieltjes integral, sequences and series of functions, uniform convergence, the Stone-Weierstrass theorem, equicontinuity, and the Arzela-Ascoli theorem.
- MATH 50500 Intermediate Abstract Algebra (3 cr.) P: 453 or consent of instructor. Group theory with emphasis on concrete examples and applications. Field theory: ruler and compass constructions, Galois theory, and solvability of equations by radicals.
- MATH 51000 Vector Calculus (3 cr.) P: 261. Spring, summer. Calculus of functions of several variables and of vector fields in orthogonal coordinate systems. Optimization problems, implicit function theorem, Green's theorem, Stokes's theorem, divergence theorems, and applications to engineering and the physical sciences.
- MATH 51100 Linear Algebra with Applications (3 cr.) P: 261. Fall, spring, summer. Not open to students with credit in 351. Matrices, rank and inverse of a matrix, decomposition theorems, eigenvectors, unitary and similarity transformations on matrices.
- MATH 51800 Advanced Discrete Mathematics (3 cr.) P: 266 or consent of instructor. This course covers mathematics useful in analyzing computer algorithms. Topics include recurrence relations, evaluation of sums, integer functions, elementary number theory, binomial coefficients, generating functions, discrete probability, and asymptotic methods.
- STAT 51900 Introduction to Probability (3 cr.) P: 261. See course listing for STAT 519.
- MATH 52000 Boundary Value Problems of Differential Equations (3 cr.) P: 261 and 266. Sturm-Liouville theory, singular boundary conditions, orthogonal expansions, separation of variables in partial differential equations, and spherical harmonics.
- MATH 52200 Qualitative Theory of Differential Equations (3 cr.) P: 266 and 351. Nonlinear ODEs, critical points, stability and bifurcations, perturbations, averaging, nonlinear oscillations and chaos, and Hamiltonian systems.
- MATH 52300 Introduction to Partial Differential Equations (3 cr.) P: 266 and 510, or consent of instructor. Method of characteristics for quasilinear first-order equations, complete integral, Cauchy-Kowalewsky theory, classification of second-order equations in two variables, canonical forms, difference methods of hyperbolic and parabolic equations, and Poisson integral method for elliptic equations.
- MATH 52500 Introduction to Complex Analysis (3 cr.) P: 261 and 266. Complex numbers and complex-valued functions; differentiation of complex functions; power series, uniform convergence; integration, contour integrals; and elementary conformal mapping.
- MATH 52600 Principles of Mathematical Modeling (3 cr.) P: 266 and 510, or consent of instructor. Ordinary and partial differential equations of physical problems, simplification, dimensional analysis, scaling, regular and singular perturbation theory, variational formulation of physical problems, continuum mechanics, and fluid flow.
- MATH 52700 Advanced Mathematics for Engineering and Physics I (3 cr.) P: 266 and 351 or 511. Linear algebra, systems of ordinary differential equations, Laplace transforms, Fourier series and transforms, and partial differential equations.
- MATH 52800 Advanced Mathematics for Engineering and Physics II (3 cr.) P: 537 or consent of instructor. Divergence theorem, Stokes's Theorem, complex variables, contour integration, calculus of residues and applications, conformal mapping, and potential theory.
- MATH 53000 Functions of a Complex Variable I (3 cr.) P or C: 544. Complex numbers, holomorphic functions, harmonic functions, and linear transformations. Power series, elementary functions, Riemann surfaces, contour integration, Cauchy's theorem, Taylor and Laurent series, and residues. Maximum and argument principles. Special topics.
- MATH 53100 Functions of a Complex Variable II (3 cr.) P: 530. Compactness and convergence in the space of analytic functions, Riemann mapping theorem, Weierstrass factorization theorem, Runge's theorem, Mittag-Leffler theorem, analytic continuation and Riemann surfaces, and Picard theorems.
- STAT 53200 Elements of Stochastic Processes (3 cr.) P: 519. See course listing for STAT 532.
- MATH 53500 Theoretical Mechanics (3 cr.) P: 266 and PHYS 152. Kinematics and dynamics of systems of particles and of rigid bodies, Lagrange and Hamilton-Jacobi equations, oscillations about equilibrium, Hamiltonian systems, integral invariants, and transformation theory.
- MATH 55000 Algebra for Teachers I (3 cr.) P: 351. Definitions and elementary properties of groups, rings, integral domains, and fields. Intended for secondary school teachers.
- MATH 53600 Perturbation and Asymptotic Analysis (3 cr.) P: 525 or 530, and 523. Matched asymptotic expansions, inner and outer expansions, strained coordinates and multiple scales, and turning point analysis.
- MATH 53700 Applied Mathematics for Scientists and Engineers I (3 cr.) P: 261, 266, and consent of instructor. Covers theories, techniques, and applications of partial differential equations, Fourier transforms, and Laplace transforms. Overall emphasis is on applications to physical problems.
- MATH 54400 Real Analysis and Measure Theory (3 cr.) P: 444 or consent of instructor. Algebra of sets, real number system, Lebesgue measure, measurable functions, Lebesgue integration, differentiation, absolute continuity, Banach spaces, metric spaces, general measure and integration theory, and Riesz representation theorem.
- MATH 54500 Principles of Analysis II (3 cr.) P: 544. Continues the study of measure theory begun in 544.
- MATH 54600 Introduction to Functional Analysis (3 cr.) P: 545. By arrangement. Banach spaces, Hahn-Banach theorem, uniform boundedness principle, closed graph theorem, open mapping theorem, weak topology, and Hilbert spaces.
- MATH 54700 Analysis for Teachers I (3 cr.) P: 261. Set theory, logic, relations, functions, Cauchy's inequality, metric spaces, neighborhoods, and Cauchy sequence.
- MATH 54800 Analysis for Teachers II (3 cr.) P: 547. Functions on a metric space, continuity, uniform continuity, derivative, chain rule, Riemann integral, fundamental theorem of calculus, and double integrals.
- MATH 54900 Applied Mathematics for Secondary School Teachers (3 cr.) P: 266 and 351. Summer, odd-numbered years. Applications of mathematics to problems in the physical sciences, social sciences, and the arts. Content varies. May be repeated for credit with the consent of the instructor.
- MATH 55100 Algebra for Teachers II (3 cr.) P: 550. Polynomial rings, fields, vector spaces, and matrices.
- MATH 55200 Applied Computational Methods II (3 cr.) P: 559 and consent of instructor. The first part of the course focuses on numerical integration techniques and methods for ODEs. The second part concentrates on numerical methods for PDEs based on finite difference techniques with brief surveys of finite element and spectral methods.
- MATH 55300 Introduction to Abstract Algebra (3 cr.) P: 45300 or consent of instructor. Group theory: finite abelian groups, symmetric groups, Sylow theorems, solvable groups, Jordan-Holder theorem. Ring theory: prime and maximal ideals, unique factorization rings, principal ideal domains, Euclidean rings, and factorization in polynomial and Euclidean rings. Field theory: finite fields, Galois theory, and solvability by radicals.
- MATH 55400 Linear Algebra (3 cr.) P: 351. Review of basics: vector spaces, dimension, linear maps, matrices, determinants, and linear equations. Bilinear forms, inner product spaces, spectral theory, and eigenvalues. Modules over principal ideal domain, finitely generated abelian groups, and Jordan and rational canonical forms for a linear transformation.
- MATH 55900 Applied Computational Methods I (3 cr.) P: 266 and 351 or 511. Computer arithmetic, interpolation methods, methods for nonlinear equations, methods for solving linear systems, special methods for special matrices, linear least square methods, methods for computing eigenvalues, iterative methods for linear systems; methods for systems of nonlinear equations.
- MATH 56100 Projective Geometry (3 cr.) P: 351. Projective invariants, Desargues' theorem, cross-ratio, axiomatic foundation, duality, consistency, independence, coordinates, and conics.
- MATH 56200 Introduction to Differential Geometry and Topology (3 cr.) P: 351 and 445. Smooth manifolds, tangent vectors, inverse and implicit function theorems, submanifolds, vector fields, integral curves, differential forms, the exterior derivative, DeRham cohomology groups, surfaces in E3, Gaussian curvature, two-dimensional Riemannian geometry, and Gauss-Bonnet and Poincare theorems on vector fields.
- MATH 56300 Advanced Geometry (3 cr.) P: 300 or consent of instructor. Topics in Euclidean and non-Euclidean geometry.
- MATH 56700 Dynamical Systems I (3 cr.) P: 545, 571 Fundamental concepts and examples, one-dimensional systems, symbolic dynamics, topological entropy, hyperbolicity, structural stability, bifurcations, invariant measures, ergodicity.
- MATH 57100 Elementary Topology (3 cr.) P: 444. Topological spaces, metric spaces, continuity, compactness, connectedness, separation axioms, nets, and function spaces.
- MATH 57200 Introduction to Algebraic Topology (3 cr.) P: 571. Singular homology theory, Ellenberg-Steenrod axioms, simplicial and cell complexes, elementary homotopy theory, and Lefschetz fixed point theorem.
- MATH 57400 Mathematical Physics I (3 cr.) P: 545 Topics in special functions, representation theory, spectral theory, modern differential geometry and topology, rigorous results in statistical physics.
- MATH 57800 Mathematical Modeling of Physical Systems I (3 cr.) P: 266, PHYS 152, PHYS 251, and consent of instructor. Linear systems modeling, mass-spring-damper systems, free and forced vibrations, applications to automobile suspension, accelerometer, seismograph, etc., RLC circuits, passive and active filters, applications to crossover networks and equalizers, nonlinear systems, stability and bifurcation, dynamics of a nonlinear pendulum, van der Pol oscillator, chemical reactor, etc., introduction to chaotic dynamics, identifying chaos, chaos suppression and control, computer simulations, and laboratory experiments.
- MATH 58100 Introduction to Logic for Teachers (3 cr.) P: 351. Not open to students with credit in 385. Logical connectives, rules of sentential inference, quantifiers, bound and free variables, rules of inference, interpretations and validity, theorems in group theory, and introduction to set theory.
- MATH 58300 History of Elementary Mathematics (3 cr.) P: 261. A survey and treatment of the content of major developments of mathematics through the eighteenth century, with selected topics from more recent mathematics, including non-Euclidean geometry and the axiomatic method.
- MATH 58500 Mathematical Logic I (3 cr.) P: 351. Formal theories for propositional and predicate calculus with study of models, completeness, and compactness. Formalization of elementary number theory; Turing machines, halting problem, and the undecidability of arithmetic.
- MATH 58700 General Set Theory (3 cr.) P: 351. Informal axiomatization of set theory, cardinal numbers, countable sets, cardinal arithmetic, order types, well-ordered sets and ordinal numbers, axiom of choice and equivalences, paradoxes of intuitive set theory, and Zermelo-Fraenkel axioms.
- MATH 58800 Mathematical Modeling of Physical Systems II (3 cr.) P: 578. Depending on the interests of the students, the content may vary from year to year. Emphasis will be on mathematical modeling of a variety of physical systems. Topics will be chosen from the volumes Mathematics in Industrial Problems by Avner Friedman. Researchers from local industries will be invited to present real-world applications. Each student will undertake a project in consultation with one of the instructors or an industrial researcher.
- MATH 59800 Topics in Mathematics (1-5 cr.) By arrangement. Directed study and reports for students who wish to undertake individual reading and study on approved topics.
Graduate
- MATH 61100 Methods of Applied Mathematics I (3 cr.) P: consent of instructor. Introduction to Banach and Hilbert spaces, linear integral equations with Hilbert-Schmidt kernels, eigenfunction expansions, and Fourier transforms.
- MATH 61200 Methods of Applied Mathematics II (3 cr.) P: 611. Continuation of theory of linear integral equations; Sturm-Liouville and Weyl theory for second-order differential operators, distributions in n dimensions, and Fourier transforms.
- MATH 62600 Mathematical Formulation of Physical Problems I (3 cr.) P: graduate standing and consent of instructor. Topics to be chosen from the following: Tensor formulation of the field equations in continuum mechanics, fluid dynamics, hydrodynamic stability, wave propagation, and theoretical mechanics.
- MATH 62700 Mathematical Formulation of Physical Problems II (3 cr.) P: 62600. Continuation of 62600.
- MATH 64200 Methods of Linear and Nonlinear Partial Differential Equations I (3 cr.) P: 52000, 52300, and 61100. Topics from linear and nonlinear partial differential equations, varied from time to time.
- MATH 64600 Functional Analysis (3 cr.) P: 546. Advanced topics in functional analysis, varying from year to year at the discretion of the instructor.
- MATH 66700 Dynamical Systems II (3 cr.) P: 567 Topics in dynamics. Continuation of MATH 567.
- MATH 67200 Algebraic Topology I (3 cr.) P: 572. Continuation of 572; cohomology, homotopy groups, fibrations, and further topics.
- MATH 67300 Algebraic Topology II (3 cr.) P: 672. continuation of 672, covering further advanced topics in algebraic and differential topology such as K-theory and characteristic classes.
- MATH 67400 Mathematical Physics II (3 cr.) P: 574 Topics in mathematical physics. Continuation of MATH 574.
- MATH 69200 Topics in Applied Mathematics (1-3 cr.)
- MATH 69300 Topics in Analysis (1-3 cr.)
- MATH 69400 Topics in Differential Equations (1-3 cr.)
- MATH 69700 Topics in Topology (1-3 cr.)
- MATH 69900 Research Ph.D. Thesis (Arr. cr.)