The University of New Mexico |

MATH: Mathematics Catalog Description |

Three Year Fall Semester Average | ||||
---|---|---|---|---|

Course | Catalog Description | Enrollment | Section Capacity |
Credits |

MATH096 | 209.67 | 238.00 | 629.00 | |

MATH097 | 72.33 | 70.00 | 217.00 | |

MATH098 | 1.67 | 6.67 | 5.00 | |

MATH099 | 132.67 | 171.00 | 530.67 | |

MATH100 | Includes signed numbers, solving linear equations, formulas, graphing, solving systems of equations and applications. Also covers exponents and polynomials, factoring, roots and radicals and quadratics. Satisfactory completion of MATH 100 meets prerequisite for MATH 120. Offered on a CR/NC basis only. | 239.67 | 299.67 | 958.67 |

MATH106 | Study session for 120 with an emphasis on problem solving. Offered on a CR/NC basis only. {Fall, Spring} | 251.00 | 403.00 | 251.00 |

MATH107 | Study session for 121 with an emphasis on problem solving. Offered on a CR/NC basis only. {Fall, Spring} | 175.33 | 305.00 | 175.33 |

MATH109 | Explores calculator skills needed for algebra, trigonometry, pre-calculus, calculus, and/or science courses. Topics include logic, calculations, scientific notation, tables, scatter plots and regression equations, programs, polar graphing, matrices, use of instruction manual. Offered on a CR/NC basis only. | |||

MATH110 | Study session for 180 with an emphasis on problem-solving. Offered on a CR/NC basis only. {Fall, Spring} | 39.00 | 106.67 | 39.00 |

MATH111 | Course offers an in-depth look at the representations of rational numbers, including base-ten and decimal numbers, integers, fractions, and arithmetic operations on these sets. Problem solving is emphasized throughout. Prerequisites: ACT=>19 or SAT=>450 or Compass Pre-Algebra >56 or Algebra >33 or ISM 100 or 120 or 121 or 123 or 150 or 162 or 180 or STAT 145. {Summer, Fall, Spring} | 142.00 | 170.67 | 426.00 |

MATH112 | This course develops basic geometric concepts including rigid transformations and congruence; dilations and similarity; length, area and volume; systems of measurement and unit conversions; connections to coordinate geometry. Problem solving is emphasized throughout. Prerequisite: 111. | 128.33 | 184.00 | 385.00 |

MATH113 | A hands-on approach in which students will work in small groups, using manipulatives to problem solve. All topics are part of the Math 111 curriculum. Corequisite: 111. | 16.33 | 25.00 | 16.33 |

MATH115 | Intended for students in applied trade technologies. Topics include a review of basic arithmetic, elementary algebra, applied geometry, measuring instruments, and formulas. Prerequisite: MATH 097. | 27.33 | 36.67 | 82.00 |

MATH116 | Selected topics from algebra, geometry and trigonometry. Prerequisite: permission of the department. Offered on a CR/NC basis only. | |||

MATH117 | Basic mathematics review (fractions, decimals, percents, ratio-proportion simple algebra); systems of measurement and conversions; performing measurements; nomenclature specific to interpreting medical orders; calculations of dosages. Offered on a CR/NC basis only. Upon demand. | 13.33 | 16.67 | 40.00 |

MATH118 | 101.33 | 125.00 | 405.33 | |

MATH119 | This course covers approximately the last half of Math 120. Topics covered include rational expression, rational exponents and roots, quadratic expressions and equations, functions and logarithms. Prerequisite: Math 118*. Offered Fall and Spring. Both Math 118* and Math 119* must be completed to MATH count as the equivalent of Math 120. Only 4 of the 8 credit hr. can count toward an Associate Degree or Certificate at UNM Gallup. The final grade in Math 119* is the average of the grades in Math 118* and Math 119*. | 62.00 | 86.67 | 248.00 |

MATH120 | Preparation for MATH 121, 129 and STAT 145. Covers linear equations and inequalities, polynomials, factoring, exponents, radicals, fractional expressions and equations, quadratic equations, perimeters, areas of simple geometric shapes, AND logarithms. Emphasis on problem solving skills. Acceptable as credit toward graduation, but not acceptable to satisfy UNM core or group requirements. The grading scale for this class is A+ to B-, CR/NC. Prerequisites: ACT=>19 or SAT=>450 or IS-M 100 or Compass Pre-Algebra >56 or Algebra >33. {Summer, Fall, Spring} | 1,357.00 | 1,578.67 | 4,071.00 |

MATH121 | Preparation for MATH 150 and 180. The study of equations, functions and graphs, especially linear and quadratic functions. Introduction to polynomial, rational, exponential and logarithmic functions. Applications involving simple geometric objects. Emphasizes algebraic problem solving skills. Meets New Mexico Lower Division General Education Common Core Curriculum Area II: Mathematics (NMCCN 1113). Prerequisite: ACT=>22 or SAT=>510 or MATH 120 or Compass Algebra >54 or College Algebra >33. {Summer, Fall, Spring} | 1,150.67 | 1,339.67 | 3,452.00 |

MATH123 | Definition of the trigonometric functions, radian and degree measure, graphs, basic trigonometric identities, inverse trigonometric functions, complex numbers, polar coordinates and graphs, vectors in 2 dimensions. May be taken concurrently with MATH 150. Prerequisite: ACT=>25 or SAT=>570 or MATH 121 or Compass College Algebra >54. {Summer, Fall, Spring} | 331.67 | 420.67 | 995.00 |

MATH125L | ||||

MATH129 | An introduction to some of the great ideas of mathematics, including logic, systems of numbers, sequences and series, geometry and probability. Emphasizes general problem-solving skills. Meets New Mexico Lower Division General Education Common Core Curriculum Area II: Mathematics. Prerequisites: ACT=>22 or SAT=>510 or MATH 120 or 121 or 123 or 150 or 162 or 163 or 180 or 181 or 264. {Summer, Fall, Spring} {Summer, Fall, Spring} | 357.67 | 587.33 | 1,073.00 |

MATH150 | In-depth study of polynomial, rational, exponential and logarithmic functions and their graphs. Includes the fundamental theorem of algebra, systems of equations, conic sections, parametric equations and applications in geometry. Exploration of the graphing calculator. May be taken concurrently with MATH 123. Meets New Mexico Lower Division General Education Common Core Curriculum Area II: Mathematics. Prerequisite: ACT=>25 or SAT=>570 or MATH 121 or Compass College Algebra >54. | 406.00 | 542.33 | 1,218.00 |

MATH162 | Derivative as a rate of change, intuitive, numerical and theoretical concepts, applications to graphing, linearization and optimization. Integral as a sum, relation between integral and derivative, and applications of definite integral. Meets New Mexico Lower Division General Education Common Core Curriculum Area II: Mathematics (NMCCN 1614). Prerequisite: (ACT=28-31 or SAT=640-700 or MATH 150 or Compass College Algebra >66) and (MATH 123 or Compass Trig >59) or (ACT=>32 or SAT=>700). {Summer, Fall, Spring} | 240.67 | 291.33 | 962.67 |

MATH162L | Derivative as a rate of change, intuitive, numerical, and theoretical concepts, applications to graphing, trigonometric and exponential functions, integral as a sum, relation between integral and derivative, applications, mean value theorem. Prerequisite: fulfillment of department placement requirements or C (not C-) or better in Math 150 and Math 123. | |||

MATH163 | Transcendental functions, techniques of integration, numerical integration, improper integrals, sequences and series with applications, complex variables and parmetrization of curves. Prerequisite: C (not C-) or better in MATH 162. {Summer, Fall, Spring} | 227.00 | 352.67 | 908.00 |

MATH163L | Applications of the definite integral, transcendental functions, techniques of integration, improper integrals, numerical methods of integration, and infinite series. Prerequisite: C (not C-) or better in Math 162L or permission of department chairperson. | |||

MATH180 | Limits of functions and continuity, intuitive concepts and basic properties; derivative as rate of change, basic differentiation techniques; application of differential calculus to graphing and minima-maxima problems; exponential and logarithmic functions with applications. Meets New Mexico Lower Division General Education Common Core Curriculum Area II: Mathematics (NMCCN 1613). Prerequisites: ACT=>26 or SAT=>600 or MATH 121 or MATH 150 or Compass College Algebra >66. {Summer, Fall, Spring} | 708.00 | 800.67 | 2,124.00 |

MATH181 | Includes the definite integral, multivariate calculus, simple differential equations, basic review of trigonometry and its relation to calculus. Prerequisites: 180. {Summer, Fall, Spring} | 164.00 | 281.67 | 492.00 |

MATH192 | Titles will vary. CR/NC. | 2.33 | 6.67 | 2.33 |

MATH193 | Various topics in mathematics including, but not limited to, tools and techniques designed to improve attitudes and performance in math class, and calculator usage. | 181.67 | 254.33 | 181.67 |

MATH215 | Algebra from the viewpoint of the elementary curriculum with emphasis on proportional and linear relationships. Also included: topics from probability and statistics with connections to other topics in the elementary curriculum. Problem solving is emphasized throughout. Prerequisite: 112. | 62.33 | 128.67 | 187.00 |

MATH264 | Vector operations, vector representation of planes and curves, functions of several variables, partial derivatives, gradient, tangent planes, optimization, multiple integrals in Cartesian cylindrical and spherical coordinates, vector fields, line integrals and Green's theorem. Prerequisite: C (not C-) or better in 163. {Summer, Fall, Spring} | 124.67 | 207.00 | 498.67 |

MATH264L | ||||

MATH275 | Differential an dintegral calculus with an emphasis on conceptual understanding. Prerequisite: Grade of at least A- in 180 or 162. | |||

MATH300 | Use of computers and graphing utilities in the mathematics classroom. Introduction to hardware and commercial software. Applications of selected programming languages to the teaching of mathematics. Prerequisite: 162 or 181. | |||

MATH301 | Also offered as MATH 501 A penetrating look at functions, derivatives, integrals, and the Fundamental Theorem of Calculus that makes explicit how topics in the secondary school curriculum come to fruition in this foundational subject. Prerequisite: 163. | 9.33 | 25.00 | 28.00 |

MATH305 | A survey of mathematical developments prior to 1800; emphasis on problem solving techniques; comparison of older and more modern methods. Prerequisite: 163. {Fall} | |||

MATH306 | An axiomatic approach to fundamentals of geometry, both Euclidean and non-Euclidean. Emphasis on historical development of geometry. {Spring} | 37.67 | 40.00 | 113.00 |

MATH308 | An experience in mathematical invention and discovery at the level of high school geometry and algebra that includes a deeper look at sequences, series, and recursions. {Offered upon demand}Prerequisite: 180 or 162. Corequisite: 306. | 12.67 | 28.33 | 38.00 |

MATH309 | An experience in mathematical invention and discovery at the level of high school geometry and algebra that includes a deeper look at sequences, series, and recursions. Prerequisite: 181 or 163. | |||

MATH311 | Vector algebra, lines, planes; vector valued functions, curves, tangent lines, arc length, line integrals; directional derivative and gradient; divergence, curl, Gauss' and Stokes' theorems, geometric interpretations. Prerequisite: 264. {Summer, Fall, Spring} | 44.33 | 80.00 | 133.00 |

MATH312 | Solution methods for partial differential equations; science and engineering applications; heat and wave equations, Laplace's equation; separation of variables; Fourier series and transforms; special functions. Prerequisites: 264 and 316. {Summer, Fall, Spring} | 31.00 | 46.00 | 93.00 |

MATH313 | Theory of functions of a complex variable with applications to physical and engineering problems. Although not required, skill in vector analysis will be helpful in taking this course. Prerequisite: 264. | 23.00 | 39.33 | 69.00 |

MATH314 | Systems of linear equations, matrices, linear transformations, determinants, eigenvalues and eigenvectors. Efficient computational methods emphasized. {Summer, Fall, Spring} Prerequisite: (163 or 181) and CS 151L. | 91.00 | 126.67 | 273.00 |

MATH316 | Introduction to algorithmic theory of ordinary differential equations. Topics covered: elementary theory of ordinary differential equations, numerical methods, phase-plane analysis, and introduction to Laplace transformations. Third-level calculus is helpful for this class. {Summer, Fall, Spring} Prerequisite: 163 and CS 151L. | 132.67 | 154.33 | 398.00 |

MATH317 | Basic enumeration including combinations, permutations, set and integer partitions, distributions, and rearrangements, binomial and multinomial theorems together with pigeon-hole and inclusion-exclusion principles and mathematical induction principles. Discrete probability, elementary ordinary generating functions, recurrence relations, and sorting algorithms. Prerequisite: 163 or 181. {Fall} | |||

MATH318 | Trees, connectivity, planarity, colorability, and digraphs; algorithms and models involving these concepts. Ability in linear algebra is helpful when taking the course. | 13.67 | 32.33 | 41.00 |

MATH319 | Divisibility, congruences, primitive roots, quadratic residues, diophantine equations, continued fractions, partitions, number theoretic functions. {Spring} | 23.67 | 36.67 | 71.00 |

MATH321 | Linear transformations, matrices, eigenvalues and eigenvectors, inner product spaces. Prerequisite: 264. {Fall, Spring} | 37.33 | 41.67 | 112.00 |

MATH322 | Groups, rings, homomorphisms, permutation groups, quotient structure, ideal theory, fields. Prerequisite: 264. {Fall} | 0.33 | 0.33 | 1.00 |

MATH327 | Course will introduce students to the fundamentals of mathematical proof in the context of discrete structures. Topics include logic, sets and relations, functions, integers, induction and recursion, counting, permutations and combinations and algorithms. Students who do not have the prerequisite may seek permission of the instructor. Prerequisite: 162 and 163. (Fall) | 19.00 | 40.00 | 57.00 |

MATH338 | Topics from secondary mathematics presented from an advanced standpoint and designed to meet the needs of pre- and in-service teachers. Open only to prospective and in-service teachers of mathematics. Prerequisite: 306 and 327. {Spring} | 5.67 | 10.67 | 17.00 |

MATH339 | Presents mathematical topics of concern to elementary and mid-school teachers. Open only to in-service and prospective teachers. {Offered upon demand} | |||

MATH339A | ||||

MATH339B | ||||

MATH339C | ||||

MATH350 | Presents mathematical topics of concern to secondary teachers. Open only to in-service and prospective teachers. {Offered upon demand} | |||

MATH350A | ||||

MATH356 | (Also offered as PHIL 356.) This is a first course in logical theory. Its primary goal is to study the notion of logical entailment and related concepts, such as consistency and contingency. Formal systems are developed to analyze these notions rigorously. | 6.67 | 6.67 | 26.67 |

MATH375 | (Also offered as CS 375.) An introductory course covering such topics as solution of linear and nonlinear equations; interpolation and approximation of functions, including splines; techniques for approximate differentiation and integration; solution of differential equations; familiarization with existing software. {Fall, Spring} Prerequisite: CS 151L. | 29.33 | 44.00 | 88.00 |

MATH391 | Advanced problem solving. Especially recommended for students wishing to participate in the Putnam Intercollegiate Mathematical Competition. Restriction: permission of instructor. {Offered upon demand} | |||

MATH393 | Selected topics from analysis, algebra, geometry, statistics, model building, interdisciplinary studies and problem solving. May be repeated for credit, no limit. {Offered upon demand} | 3.67 | 3.67 | 11.00 |

MATH393A | ||||

MATH401 | Rigorous treatment of calculus in one variable. Definition and topology of real numbers, sequences, limits, functions, continuity, differentiation and integration. Students will learn how to read, understand and construct mathematical proofs. Prerequisite: 264 and two courses at the 300+ level. {Fall, Spring} | 16.33 | 27.33 | 65.33 |

MATH402 | Generalization of 401/501 to several variables and metric spaces: sequences, limits, compactness and continuity on metric spaces; interchange of limit operations; series, power series; partial derivatives; fixed point, implicit and inverse function theorems; multiple integrals. Prerequisite: 401. | 12.67 | 25.00 | 38.00 |

MATH412 | Qualitative study of linear and nonlinear ordinary differential equations and discrete time maps including stability analysis, bifucations, fractal structures and chaos; applications to biology, chemistry, physics and engineering. Prerequisites: 264 and (314 or 321) or 316. | 15.00 | 30.00 | 45.00 |

MATH415 | (Also offered as PHIL 415.) A historical survey of principal issues and controversies on the nature of mathematics. Emphasis varies from year to year. Student who does not have prerequisite may seek permission of instructor. Prerequisite: 163 or 181 or 356. | |||

MATH421 | Theory of fields, algebraic field extensions and Galois theory for fields of characteristic zero. Prerequisite: 322 or 422. {Alternate Springs} | 6.67 | 14.33 | 20.00 |

MATH422 | Groups, rings and fields. (This course will not be counted in the hours necessary for a mathematics major.) Prerequisite: 264. {Fall} | |||

MATH431 | Metric spaces, topological spaces, continuity, algebraic topology. Prerequisite: 401. {Alternate Falls} | |||

MATH434 | Elementary theory of surfaces, differential forms, integral geometry and Riemannian geometry. Prerequisite: 311 or 402. {Offered upon demand} | |||

MATH439 | May be repeated for credit, no limit. {Offered upon demand} | 2.67 | 19.00 | 5.33 |

MATH441 | (Also offered as STAT 461/561.) Mathematical models for random experiments, random variables, expectation. The common discrete and continuous distributions with application. Joint distributions, conditional probability and expectation, independence. Laws of large numbers and the central limit theorem. Moment generating functions. Prerequisite: 264. {Fall} | |||

MATH462 | Linear systems. Existence and uniqueness theorems, flows, linearized stability for critical points, stable manifold theorem. Gradient and Hamiltonian systems. Limit sets, attractors, periodic orbits, Floquet theory and the Poincare Map. Introduction to perturbation theory. Prerequisite: (314 or 321) and 316 and 407. {Fall} | |||

MATH463 | Classification of partial differential equations; properly posed problems; separation of variables, eigenfunctions and Green's functions; brief survey of numerical methods and variational principles. Prerequisite: 312 and 313 and (314 or 321) and (311 or 402). {Spring} | 1.33 | 5.33 | 4.00 |

MATH464 | Determinants; theory of linear equations; matrix analysis of differential equations; eigenvalues, eigenvectors and canonical forms; variational principles; generalized inverses. Prerequisite: 314 or 321 or permission of instructor. {Fall} | |||

MATH466 | Special functions and advanced mathematical methods for solving differential equations, difference equations and integral equations. Prerequisites: 311, 312, 313, 316. {Spring} | |||

MATH471 | (Also offered as CS 471.) Introduction to scientific computing fundamentals, exposure to high performance programming language and scientific computing tools, case studies of scientific problem solving techniques. | |||

MATH472 | Discrete Fourier and Wavelet Transform. Fourier series and integrals. Expansions in series of orthogond wavelets and other functions. Multiresolution and time/frequency analysis. Applications to signal processing and statistics. Prerequisite: (314 or 321) or 401. {Offered upon demand} | |||

MATH499 | Guided study, under the supervision of a faculty member, of selected topics not covered in regular courses | 6.33 | 425.00 | 16.33 |

MATH500 | Use of computers and graphing utilities in the mathematics classroom. Introduction to hardware and commercial software. Applications of selected programming languages to the teaching of mathematics. Prerequisite: 162 or 181. Restriction: College of Education graduate students. | |||

MATH501 | Rigorous treatment of calculus in one variable. Definition and topology of real numbers, sequences, limits, functions, continuity, differentiation and integration. Students will learn how to read, understand and construct mathematical proofs. Prerequisite: 264 and two courses at the 300+ level. Restriction: College of Education graduate students. | 0.33 | 10.67 | 1.33 |

MATH502 | Generalization of 401/501 to several variables and metric spaces: sequences, limits, compactness and continuity on metric spaces; interchange of limit operations; series, power series; partial derivatives; fixed point, implicit and inverse function theorems; multiple integrals. Prerequisite: 501. Restriction: College of Education graduate students. | 1.33 | 30.00 | 4.00 |

MATH503 | (Also offered as MATH 301) A penetrating look at functions, derivatives, integrals, and the Fundamental Theorem of Calculus that makes explicit how topics in the secondary school curriculum come to fruition in this foundational subject. Restriction: College of Education graduate students. | 0.67 | 6.67 | 2.00 |

MATH504 | (Also offered as CS 575.) Direct and iterative methods of the solution of linear systems of equations and least squares problems. Error analysis and numerical stability. The eigenvalue problem. Descent methods for function minimization, time permitting. Prerequisites: 464, 514. {Spring} | 12.67 | 21.67 | 38.00 |

MATH505 | (Also offered as CS 576.) Numerical approximation of functions. Interpolation by polynomials, splines and trigonometric functions. Numerical integration and solution of ordinary differential equations. An introduction to finite difference and finite element methods, time permitting. Prerequisites: 316 or 401. {Fall} | |||

MATH506 | An axiomatic approach to fundamentals of geometry, both Euclidean and non-Euclidean. Emphasis on historical development of geometry. Restriction: College of Education graduate students. {Spring} | 1.67 | 6.00 | 5.00 |

MATH507 | A survey of mathematical developments prior to 1800; emphasis on problem solving techniques; comparison of older and more modern methods. Prerequisite: 163. Restriction: College of Education graduate students. {Fall} | |||

MATH508 | An experience in mathematical invention and discovery at the level of high school geometry and algebra that includes a deeper look at sequences, series, and recursions. {Offered upon demand} Prerequisite: 180 or 162. Corequisite: 306. Restriction: College of Education graduate students. | 1.33 | 4.33 | 4.00 |

MATH509 | An experience in mathematical invention and discovery at the level of high school geometry and algebra that includes a deeper look at sequences, series, and recursions. Prerequisite: 181 or 163. Restriction: College of Education graduate students. | |||

MATH510 | Real number fields, sets and mappings. Basic point set topology, sequences, series, convergence issues. Continuous functions, differentiation, Riemann integral. General topology and applications: Weierstrass and Stone-Weierstrass approximation theorems, elements of Founier Analysis (time permitting). Prerequisites: 321, 401. {Fall} | |||

MATH511 | Continuation of 510. Differentiation in Rn. Inverse and implicit function theorems, integration in Rn, differential forms and Stokes theorem. Prerequisite: 510. {Spring} | 8.67 | 21.67 | 26.00 |

MATH512 | Linear systems. Existence and uniqueness theorems, flows, linearized stability for critical points, stable manifold theorem. Gradient and Hamiltonian systems. Limit sets, attractors, periodic orbits, Floquet theory and the Poincare Map. Introduction to perturbation theory. Prerequisites: 314, or 321, 316, 401. {Fall} | |||

MATH513 | Classification of partial differential equations; properly posed problems; separation of variables, eigenfunctions and Green's functions; brief survey of numerical methods and variational principles. Prerequisites: 312, 313, 314 or 321, one of 311 or 402. {Spring} | 13.33 | 25.67 | 40.00 |

MATH514 | Determinants; theory of linear equations; matrix analysis of differential equations; eigenvalues, eigenvectors and canonical forms; variational principles; generalized inverses. Prerequisite: 314 or 321. {Fall} | |||

MATH519 | May be repeated for credit, no limit. | |||

MATH519A | ||||

MATH520 | Theory of groups, permutation groups, Sylow theorems. Introduction to ring theory, polynomial rings. Principal ideal domains. Prerequisite: 322. {Fall} | |||

MATH521 | Continuation of 520. Module theory, field theory, Galois theory. Prerequisites: 321, 520. {Spring} | 6.33 | 11.67 | 19.00 |

MATH530 | Basic theory of complex affine and projective varieties. Smooth and singular points, dimension, regular and rational mappings between varieties, Chow's theorem. Prerequisites: 431, 521, 561. {Alternate Falls} | |||

MATH531 | Continuation of 530. Degree of a variety and linear systems. Detailed study of curves and surfaces. Prerequisite: 530. {Alternate Springs} | 2.33 | 6.67 | 7.00 |

MATH532 | Introduction to homology and cohomology theories. Homotopy theory, CW complexes. Prerequisites: 431, 521 or permission of instructor. {Alternate Falls} | |||

MATH533 | Continuation of 532. Duality theorems, universal coefficients, spectral sequence. Prerequisite: 532. {Alternate Springs} | |||

MATH534 | Elementary theory of surfaces, differential forms, integral geometry, Riemannian geometry. Prerequisite: 311 or 402. {Offered upon demand} | |||

MATH535 | Basic point set topology. Separation axioms, metric spaces, topological manifolds, fundamental group and covering spaces. Prerequisite: 401. | |||

MATH536 | Concept of a manifold, differential structures, vector bundles, tangent and cotangent bundles, embedding, immersions and submersions, transversality, Stokes' theorem. Prerequisite: 511 or permission of instructor. | 4.33 | 11.67 | 13.00 |

MATH537 | Theory of connections, curvature, Riemannian metrics, Hopf-Rinow theorem, geodesics. Riemannian submanifolds. Prerequisite: 536. | |||

MATH538 | Continuation of MATH 537 with emphasis on adding more structures. Riemannian submersions, Bochner theorems with relation to topology of manifolds, Riemannian Foliations, Complex and Kaehler geometry, Sasakian and contact geometry. Prerequisite: 537. | 2.33 | 3.33 | 7.00 |

MATH539 | May be repeated for credit, no limit. | 3.00 | 3.33 | 9.00 |

MATH539A | ||||

MATH540 | (Also offered as STAT 565.) Markov chains and processes with applications. Classification of states. Decompositions. Stationary distributions. Probability of absorption, the gambler's ruin and mean time problems. Queuing and branching processes. Introduction to continuous time Markov processes. Jump processes and Brownian motion. Prerequisite: 527 or permission of instructor. {Offered on demand} | 0.00 | 5.33 | 0.00 |

MATH541 | (Also offered as STAT 567.) A measure theoretic introduction to probability theory. Construction of probability measures. Distribution and characteristic functions, independence and zero-one laws. Sequences of independent random variables, strong law of large numbers and central limit theorem. Conditional expectation. Martingales. Prerequisite: 563. {Alternate Springs} | 1.33 | 2.33 | 4.00 |

MATH542 | Topics from secondary mathematics presented from an advanced standpoint and designed to meet the needs of pre- and in-service teachers. Open only to prospective and in-service teachers of mathematics. Prerequisites: 306 and 327. Restriction: College of Education graduate students. {Spring} | 0.00 | 1.67 | 0.00 |

MATH543 | Presents mathematical topics of concern to elementary and mid-school teachers. Open only to in-service and prospective teachers. May be repeated for credit by permission of instructor. {Offered upon demand} Restriction: College of Education graduate students. | |||

MATH549 | (Also offered as STAT 569.) May be repeated for credit, no limit. | |||

MATH550 | Presents mathematical topics of concern to secondary teachers. Open only to in-service and prospective teachers. May be repeated for credit by permission of instructor. {Offered upon demand} Restriction: College of Education graduate students. | 0.67 | 6.67 | 2.00 |

MATH551 | May be repeated for credit, no limit. | 5.00 | 200.00 | 11.00 |

MATH557 | (Also offered as CS 557.) Possible topics include approximation theory, two point boundary value problems, quadrature, integral equations and roots of nonlinear equations. May be repeated for credit, no limit. | |||

MATH561 | Analyticity, Cauchy theorem and formulas, Taylor and Laurent series, singularities and residues, conformal mapping, selected topics. Prerequisite: 311 or 402. {Fall} | |||

MATH562 | The Mittag-Leffler theorem, series and product expansions, introduction to asymptotics and the properties of the gamma and zeta functions. The Riemann mapping theorem, harmonic functions and Dirichlet's problem. Introduction to elliptic functions. Selected topics. Prerequisite: 561. {Fall} | 8.00 | 21.67 | 24.00 |

MATH563 | Functions of one and several real variables, measure theory, starting with Lebesque measure and integration. Product measures. Measure on spaces of functions. Prerequisite: 401 or 510. {Fall} | |||

MATH565 | Fourier analysis on the circle, real line and on compact and locally compact groups. Prerequisite: 563. {Offered upon demand} | 3.00 | 5.00 | 9.00 |

MATH568 | Basic theory of stochastic differential equations with applications. The presentation will be at a level accessible to scientists, engineers and applied mathematicians. Prerequisites: 316 and 441. {Offered upon demand} | |||

MATH569 | May be repeated for credit, no limit. | |||

MATH570 | Singularly perturbed boundary value problems, layer type expansions and matching. Initial value problems and multiscaling methods for ordinary and partial differential equations. Phase plane and qualitative ideas. Applications. Perturbations of Hamiltonian systems. Prerequisites: 462, 463. {Alternate Springs} | 4.33 | 5.00 | 13.00 |

MATH571 | Existence and uniqueness of solutions, linear systems, asymptotic behavior of solutions to nonlinear systems, integral manifolds and linearizations, perturbation theory, bifurcation theory, dichotomies for solutions of linear systems. Prerequisite: 462. {Alternate Springs} | |||

MATH572 | Discrete Fourier and Wavelet Transform. Fourier series and integrals. Expansions in series of orthogond wavelets and other functions. Multiresolution and time/frequency analysis. Applications to signal processing and statistics. Prerequisite: 314, 321 or 401. {Offered upon demand} | |||

MATH573 | Equations of first order, classification of equations and systems, elliptic equations and introduction to potential theory, hyperbolic equations and systems, parabolic equations. Prerequisite: 463. {Alternate Falls} | 3.67 | 10.00 | 11.00 |

MATH576 | Selected advanced topics in numerical linear algebra. Prerequisite: 504. {Alternate Springs} | |||

MATH577 | Numerical methods for initial value and/or boundary value problems. Prerequisites: 462, 504, 505. {Offered upon demand} | 2.00 | 5.00 | 6.00 |

MATH578 | Introduction to the numerical analysis of partial differential equations. Prerequisites: 463, 504, 505. {Alternate Falls} | 5.00 | 13.33 | 15.00 |

MATH579 | May be repeated for credit, no limit. | 2.00 | 8.33 | 6.00 |

MATH579A | ||||

MATH579C | ||||

MATH579D | ||||

MATH581 | Normed vector spaces, including Hilbert and Banach spaces. Linear operators on these spaces, with an emphasis on applications. Prerequisite: 510. {Offered upon demand} | |||

MATH582 | Advanced topics in function spaces and linear operators. Prerequisite: 581. | 2.00 | 5.00 | 6.00 |

MATH583 | Approximation in Hilbert spaces, basic operator theory, integral equations, distribution theory, Green's functions, differential operators, boundary value problems and nonlinear problems. Prerequisites: 312, 314, 316, 401. {Alternate Falls} | |||

MATH584 | Eigenfunction expansions for ordinary and partial differential operators, Euler-Lagrange equations, Hamilton's principle, calculus of variations, brief complex variable theory, special functions, transform and spectral theory, asymptotic expansions. Prerequisites: 312 and 314 and 316 and 401. {Alternate Springs} | 7.33 | 18.33 | 22.00 |

MATH598 | Practicum involves a project of an applied nature which may be done in conjunction with an industrial laboratory, a research institution or another department of the University. It is expected the student will become acquainted with a field of application in science or engineering and complete a project of use and interest to workers in that field. A final written report is required. | 0.00 | 25.00 | 0.00 |

MATH599 | Offered on a CR/NC basis only. | 9.33 | 293.67 | 31.00 |

MATH605 | Students present their current research. | 3.33 | 92.67 | 3.33 |

MATH639 | . | 4.67 | 46.00 | 5.00 |

MATH639A | ||||

MATH649 | (Also offered as STAT 649.) May be repeated for credit, no limit. | 0.00 | 19.00 | 0.00 |

MATH649A | ||||

MATH650 | 12.67 | 455.00 | 50.00 | |

MATH669 | May be repeated for credit, no limit. | 0.67 | 25.00 | 1.33 |

MATH669A | ||||

MATH679 | May be repeated for credit, no limit. | 4.00 | 48.33 | 6.00 |

MATH679A | ||||

MATH689 | 0.00 | 25.00 | 0.00 | |

MATH689A | ||||

MATH699 | Offered on a CR/NC basis only. | 14.67 | 400.00 | 101.33 |

"MATH: Mathematics "Three Fall Subject Average - Enroll: 7,659.67 Capacity: 12238.67 Credits: 22,839.67' |