May 14, 2024  
2021-2022 Catalog 
    
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2021-2022 Catalog [ARCHIVED CATALOG]

Course Descriptions

Course Numbering System

The first digit in each course designation is intended to indicate the level of the course. In addition, the first digit also roughly indexes the student’s year of study at the University.
Courses numbered 001 to 099 are non-baccalaureate developmental courses.
Courses numbered 100 to 299 are lower-division.
Courses numbered 300 to 499 are upper-division.
Courses numbered 500 to 599 are graduate level, and may be taken by advanced upper-division, post-baccalaureate, or graduate students for undergraduate or graduate credit.
Courses numbered 600 to 699 are graduate level. These courses may be taken by undergraduate students only on an individual basis, and only with prior, case-by-case approval of the program director of the program offering the course (or his/her designee).
Courses numbered 700 to 799 are doctoral level.
Courses numbered 1000 and above not listed in this catalog because these are professional-level courses carrying University credit, which do not typically apply to credentials or degrees offered by the University. These courses are recorded on student transcripts.
Students should consult relevant sections of this catalog, as well as college and program advising staff, in order to determine which courses are appropriate for their level of study, and which courses satisfy degree requirements for various programs of study.
 

Mathematics
  

  • MATH 1 - Support for Quantitative Reasoning

    Units: 1

    Fundamental mathematical skills needed for success in MATH 101  (Quantitative Reasoning). Includes operations with fractions, decimals and percents, and comparing and converting these; working with variables and translating verbal expressions into variable expressions; solutions to linear equations; graphing functions in the coordinate plane; exponents; and square roots. 

    Note: Math 001 does not count toward any graduation requirement to be completed at CSUSM, but it is counted in determining financial aid and VA benefits. 

    Note: Students who matriculated prior to Fall 2018 and who have not completed the Entry Level Mathematics (ELM) requirement, and students matriculating in Fall 2018 or later who are in the Mathematics/Quantitative Reasoning Placement Categories III and IV are required to co-enroll in MATH 001 as a registration condition for MATH 101 . Students who matriculated prior to Fall 2018 and who have completed the Entry Level Mathematics (ELM) requirement, and students matriculating in Fall 2018 or later who are in the Mathematics/Quantitative Reasoning Placement Categories I and II may take MATH 101  without also enrolling in MATH 1. Grading Basis: Credit / No Credit.

    Corequisite(s): MATH 101 .
  

  • MATH 5 - Recitation for Supported College Algebra

    Units: 1

    Integrated review of intermediate algebra with college algebra. Review of the rectangular coordinate system, lines, polynomial expressions, and arithmetic. Simplification of algebraic expressions, solution of quadratic and rational equations, properties of exponents, and arithmetic operations involving rational exponents and radicals.  

    Note: MATH 5 does not count toward any graduation requirement to be completed at CSUSM, but it is counted in determining financial aid and VA benefits. Cross-listed: MATH 5 and ESM 5  are cross-listed. Students may not receive credit for both. Grading Basis: Credit / No Credit.

    Corequisite(s): MATH 105 .
  

  • MATH 10 - Pre-Algebra

    Units: 3
    Review of the properties of natural numbers and integers, including prime factorization. Introduction to the language of Algebra: translating between word phrases and algebraic expressions, evaluating algebraic expressions, and estimating the value of an algebraic expression. Includes working with fractions, including fractions with variable expressions in the numerator and denominator, ratios, proportions, and percent as well as their use in solving common applied problems. Concludes with the interpretation of graphs and calculation of elementary statistical measures. Note: MATH 10 does not count toward any graduation requirement to be completed at CSUSM, but it is counted towards financial aid and VA benefits. Enrollment Restrictions: Enrollment restricted to students who have not satisfied the Entry Level Mathematics (ELM) requirement and whose highest ELM examination score is below 30. Students who have satisfied the ELM requirement may not enroll.

  

  • MATH 20 - Beginning Algebra

    Units: 3
    Review of the use of algebraic expressions for the solution of linear equations and geometric problems. Introduction to the rectangular coordinate system and its use for graphing functions and representing information. Solution of linear systems of equations, linear systems of inequalities, equations, and inequalities involving the absolute value. Introduction to polynomial expressions, their properties, and the solution of polynomial equations. Note: MATH 20 does not count toward any graduation requirement to be completed at CSUSM, but it is counted towards financial aid and VA benefits. Enrollment Requirement(s): Highest Entry-Level Mathematics (ELM) exam score from 30 to 38, or completion of MATH 10  with a grade of C (2.0) or better. Students who have satisfied the ELM requirement may not enroll.

  

  • MATH 22 - Supplemental Instruction in MATH 30

    Units: 1
    Peer-facilitated learning session focused on development of skills needed to succeed in MATH 30  and subsequent math courses. Intended to provide a collaborative learning environment where students can work on problem solving, general study skills, and MATH 30  course content. May be repeated for a total of two 2 units. Grading Basis: Graded Credit/No Credit. Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor.

  

  • MATH 30 - Entry Level Mathematics

    Units: 3
    Review of the rectangular coordinate system, lines, linear equation systems, and polynomial expressions and arithmetic. Algebraic subjects include: simplification of algebraic expressions, solution of quadratic and rational equations, properties of exponents, and arithmetic operations involving rational exponents. Geometric subjects include: determination of angles, basic geometric figures and their uses, properties of triangles, circles, polygons, and applications of the Pythagorean Theorem. Note: MATH 30 does not count toward any graduation requirement to be completed at CSUSM, but it is counted towards financial aid and VA benefits. Enrollment Requirement(s): Highest Entry-Level Mathematics (ELM) exam score from 40 to 48, or completion of MATH 20  with a minimum grade of C (2.0) or better. Students who have satisfied the ELM requirement may not enroll. Students who complete MATH 30 with a grade of C (2.0) or better will satisfy the ELM requirement.

  

  • MATH 30C - Computer Aided Entry Level Math

    Units: 3
    Review of the rectangular coordinate system, lines, linear equation systems, and polynomial expressions and arithmetic. Algebraic subjects include: simplification of algebraic expressions, solution of quadratic and rational equations, properties of exponents, and arithmetic operations involving rational exponents. Geometric subjects include: determination of angles, basic geometric figures and their uses, properties of triangles, circles, polygons, and applications of the Pythagorean Theorem. Content is identical to MATH 30 , and part of the content is taught with the help of computer software. Note: MATH 30C does not count toward any graduation requirement to be completed at CSUSM, but it is counted towards financial aid and VA benefits. Enrollment Requirement(s): Highest Entry-Level Mathematics (ELM) exam score from 40 to 48, or completion of MATH 20  with a minimum grade of C (2.0) or better. Students who have satisfied the ELM requirement may not enroll. Students who complete MATH 30C with a grade of C (2.0) or better will satisfy the ELM requirement.

  

  • MATH 100 - Mathematical Ideas

    Units: 3
    Basic mathematical concepts such as logic, number theory, number systems, algebra, geometry, functions, graphs, counting methods, probability, and statistics together with related cultural and historical perspectives. Applications of mathematics will be emphasized. May not be taken for credit by students who received credit for: GEM 100.  Enrollment Restrictions: For students matriculating prior to Fall 2018, enrollment restricted to students who have completed the Entry Level Mathematics (ELM) requirement. For students matriculating in Fall 2018 or later, enrollment is restricted to students in Mathematics/Quantitative Reasoning Placement Categories I or II, or who have completed MATH 101 , MATH 105  or ESM 105  with a grade of C (2.0) or better, or who have completed ESM 104  with a grade of B- (2.7) or better.

    Satisfies GE area: B4
  

  • MATH 101 - Quantitative Reasoning

    Units: 3

    Mathematical tools for understanding the modern world. Includes using linear and exponential functions to model growth and decay processes; the effect of compounding interest in personal finance situations such as saving for a goal and paying off debt; using elementary probability theory to calculate the likelihood of events, and using descriptive statistics to organize data sets. 

    Note: Students who matriculated prior to Fall 2018 and who have completed the Entry Level Mathematics (ELM) requirement, and students matriculating in Fall 2018 or later who are in the Mathematics/Quantitative Reasoning Placement Categories I and II or who have passed ESM 104  with a grade of B- (2.7) or better, are allowed but not required to co-enroll in MATH 1 .

    Corequisite(s): Students who matriculated prior to Fall 2018 and who have not completed the Entry Level Mathematics (ELM) requirement, and students matriculating in Fall 2018 or later who are in the Mathematics/Quantitative Reasoning Placement Categories III and IV, must also co-enroll in MATH 1 , unless they have passed ESM 104  with a grade of B- (2.7) or better.
    Satisfies GE area: B4
  

  • MATH 105 - Supported College Algebra

    Units: 3

    College algebra with integrated review of intermediate algebra.  Includes graphs, equations, inequalities, and functions (linear, polynomial, rational, root, exponential, logarithmic).   May not be taken for credit by students who received credit for: MATH 125  or MATH 126 . Also offered as ESM 105 , and equivalent to MATH 115 ; students may only receive credit for one of the courses.  Enrollment Restrictions: For students who matriculated prior to Fall 2018: Enrollment restricted to students who have completed the Entry Level Mathematics (ELM) requirement.

    For students matriculating in Fall 2018 or later: Enrollment restricted to students in Mathematics/Quantitative Reasoning Placement Categories I, II or III, or who have completed MATH 101  with a grade of C (2.0) or better or ESM 104 with a grade of B- (2.7) or better.

    Corequisite(s): MATH 5 .
    Satisfies GE area: B4
  

  • MATH 110 - Critical Thinking

    Units: 3
    Critical thinking in decision-making. Formal and informal fallacies of language and thought; the often unreliable guide of common-sense reasoning; analysis and criticism of ideas; distinction between fact and judgment, belief and knowledge; inductive and deductive arguments; and effective techniques of decision-making. Students will learn critical thinking skills to apply to common issues of everyday life.

    Satisfies GE area: A3
  

  • MATH 115 - College Algebra

    Units: 3

    Equations and inequalities, functions, graphs, polynomials, exponential and logarithmic functions, conics, sequences and series, counting principles, binomial theorem, and systems of linear equations. 

    Note: Students who enter CSUSM in Mathematics/Quantitative Reasoning Placement Categories IV and who have completed MATH 101  with a grade of C (2.0) or better should take MATH 105  instead of this course.

      Cross-listed: Equivalent to ESM 105  and MATH 105 ; students may only receive credit for one of the courses. Enrollment Restrictions: For students matriculating prior to Fall 2018: enrollment is restricted to students who have completed the Entry-Level Mathematics (ELM) requirement. For students matriculating in Fall 2018 or later: enrollment is restricted to students in Mathematics/Quantitative Reasoning Placement Categories I and II, or who have completed MATH 101  with a grade of C (2.0) or better. 

    Satisfies GE area: B4
  

  • MATH 125 - Pre-Calculus

    Units: 4
    Designed for students preparing to take MATH 160 . Equations and inequalities, functions, graphs, polynomial and rational functions, trigonometric functions, exponential and logarithmic functions, systems of linear equations, conics, sequences and series, and the binomial theorem. Students who have received credit for MATH 105  or MATH 115  may earn only three (3) credits toward graduation. Cross-listed: MATH 125 and MATH 126  are cross-listed. Students may not receive credit for both.  Enrollment Restrictions: For students matriculating prior to Fall 2018, enrollment is restricted to students who have completed the Entry-Level Mathematics (ELM) requirement.
    For students matriculating in Fall 2018 or later, enrollment is restricted to students in Mathematics/Quantitative Reasoning Placement Categories I or II, or who have completed MATH 105  with a grade of C (2.0) or better.

    Satisfies GE area: B4
  

  • MATH 126 - Transition to Calculus

    Units: 3
    Designed as a bridge course between college algebra (MATH 105  or MATH 115 ) and calculus (MATH 160 ).  Includes complex numbers, functions and their inverses, polynomial functions, polynomial division and inequalities, exponential and logarithmic functions, trigonometric functions and identities, sequences and series, systems of linear equations, and limits. May not be taken for credit by students who received credit for: MATH 125 

    Prerequisite(s): MATH 105  or MATH 115  with a grade of C (2.0) or better.
    Satisfies GE area: B4
  

  • MATH 132 - Survey of Calculus

    Units: 3
    Basic calculus concepts with applications to business, economics, and the social sciences. Differential calculus for algebraic, exponential, and logarithmic functions; optimization, linearization, and other applications of derivatives; introduction to integral calculus. Includes use of graphing calculators. Enrollment Restrictions: For students matriculating prior to Fall 2018, enrollment is restricted to students who have completed the Entry-Level Mathematics (ELM) requirement. For students matriculating in Fall 2018 or later, enrollment is restricted to students in Mathematics/Quantitative Reasoning Placement Categories I and II, or who have completed MATH 105  with a grade of C (2.0) or better. Enrollment Requirement(s): MATH 105  or MATH 115   with a grade of C (2.0) or better, or the equivalent.

    Satisfies GE area: B4
  

  • MATH 142 - Basic Statistics

    Units: 3
    Covers types of data; descriptive statistics; types of studies; probability and sampling distributions; statistical inference; correlation and linear regression; chi-square, t-tests, and F-test; interpretation of the relevance of the statistical findings. Includes the application of technology for statistical analysis from disciplines including business, social sciences, psychology, life science, health science, and education. Enrollment Restrictions: For students matriculating prior to Fall 2018, enrollment is restricted to students who have completed the Entry-Level Mathematics (ELM) requirement. For students matriculating in Fall 2018 or later, enrollment is restricted to students in Mathematics/Quantitative Reasoning Placement Categories I and II, or who have completed MATH 101  or MATH 105  with a grade of C (2.0) or better.

  

  • MATH 160 - Calculus with Applications, I

    Units: 5
    Differential and integral calculus of functions of one variable: analytic geometry, limits, continuity, derivatives, analysis of curves, integrals, and applications; algebraic, trigonometric, logarithmic, and exponential functions; and historical perspectives. 

    Prerequisite(s): A passing score on the math placement test; or MATH 125  or MATH 126   with a grade of C (2.0) or better.
    Satisfies GE area: B4
  

  • MATH 162 - Calculus with Applications, II

    Units: 4
    A continuation of differential and integral calculus: inverse trigonometric and hyperbolic functions, integration methods, indeterminate forms, coordinate systems, planes and lines in space, sequences and series, applications, and historical perspectives. Includes a laboratory experience using either computers or graphing calculators.

    Prerequisite(s): MATH 160  with a grade of C (2.0) or better.
  

  • MATH 200 - Mathematical Statistics for Nursing

    Units: 3
    Introduction to descriptive and inferential statistics and basic probability theory. Focuses on examples from life and health sciences. Includes histograms, stem- and dotplots, measuring center and spread, scatterplots, correlation, regression, two-way tables, parameter estimation, confidence intervals, t-test, and chi-square test. Introduces discrete and continuous probability model, random variables, normal, binomial, and Poisson distribution, and basic counting principles. Provides the necessary properties of exponential and logarithmic functions. Enrollment Restrictions: For NURS students in Math/Quant Reasoning Placement Categories I or II, or who have completed MATH 101  or MATH 105  with a grade of C (2.0) or better (or NURS students who have completed Entry-Level Mathematics (ELM) prior to Fall 2018).

    Satisfies GE area: B4
  

  • MATH 210 - Math for K-8 Teachers I: Number Sense

    Units: 3
    Reinforces mathematical concepts for those teaching in grades K-8. Emphasizes numeric concepts: sets, logic, counting numbers, integers, rational numbers, real numbers, some number theory, and measurement and estimation, appropriate use of technology, and historical/cultural perspectives. Enrollment Restrictions: For students matriculating prior to Fall 2018, enrollment is restricted to students who have completed the Entry-Level Mathematics (ELM) requirement. For students matriculating in Fall 2018 or later, enrollment is restricted to students in Mathematics/Quantitative Reasoning Placement Categories I and II, or who have completed MATH 101  or MATH 105   or ESM 105  with a grade of C (2.0) or better or ESM 104  with a grade of B- (2.7) or better.

  

  • MATH 212 - Mathematics for K-8 Teachers II: Geometry, Measurement, and Reasoning

    Units: 3
    Designed to reinforce mathematical concepts for those teaching in grades K-8. Emphasis on patterns and functional relationships; geometric concepts in two- and three-dimensional space: points, lines, planes, curves, triangles, convex figures, parallelism, congruence, similarity, symmetry, perimeter, area, and volume; problem-solving strategies; appropriate use of technology; and historical/cultural perspectives. Credit may not be counted toward the mathematics major. Enrollment Restrictions: Enrollment restricted to students who have completed the Entry-Level Mathematics (ELM) requirement.

    Prerequisite(s): MATH 210  with a grade of C (2.0) or better.
    Satisfies GE area: B4
  

  • MATH 242 - Introduction to Statistics

    Units: 3
    Introduces basic concepts of probability theory such as sample space, discrete, and continuous probability models, counting principles, random variables, conditional probability, discrete probability distributions, normal probability distribution, joint and marginal distributions. Subjects in statistics include types of data, measures of central tendency and variations, visualizing data, tests for normality, sampling distribution, central limit theorem, hypothesis tests for means and proportions, correlation, and regression. May include computer software such as Excel, Minitab, or courseware. Enrollment Restrictions: For students matriculating prior to Fall 2018, enrollment is restricted to students who have completed the Entry-Level Mathematics (ELM) requirement. For students matriculating in Fall 2018 or later, enrollment is restricted to students in Mathematics/Quantitative Reasoning Placement Categories I and II, or who have completed MATH 105  with a grade of C (2.0) or better. Enrollment Requirement(s): MATH 105  or MATH 115  with a grade of C (2.0) or better, or an equivalent (or more advanced) course.

  

  • MATH 260 - Calculus with Applications, III

    Units: 4
    Differential and integral calculus of functions of several variables: three dimensional analytic geometry, vector calculus, partial derivatives, multiple integrals, line integrals, applications, and historical perspectives. Includes a computer laboratory experience.

    Prerequisite(s): MATH 162  with a grade of C (2.0) or better.
  

  • MATH 262 - Introduction to Differential Equations

    Units: 3
    Models involving first-order equations, higher-order linear equations, systems of equations, numerical methods, and applications. Combines theoretical ideas with hands-on experience using appropriate computer software packages. This course is not currently offered at Cal State San Marcos. It is listed only for transfer credit and course equivalency purposes. Enrollment Requirement(s): MATH 162  with a grade of C (2.0) or better.

  

  • MATH 264 - Introduction to Linear Algebra

    Units: 3
    Matrix algebra, systems of linear equations, vector spaces, independence, linear transformations, eigenvalues and eigenvectors, and applications. This course is not currently offered at Cal State San Marcos. It is listed only for transfer credit and course equivalency purposes. Enrollment Requirement(s): MATH 115   with a grade of C (2.0) or better.

  

  • MATH 270 - Basic Discrete Mathematics

    Units: 3
    Exposure to fundamental discrete mathematical skills and knowledge: basic logic and applications in computer science, methods of proof, functions, relations, set, basic counting techniques, graphs, trees, and applications in computer science.

    Prerequisite(s): MATH 160  with a grade of C (2.0) or better.
  

  • MATH 303 - Themes for Society

    Units: 3
    Descriptive overviews of selected areas of mathematics which play a visible role in the modern world. Topics include management science and operations research, political science, statistics, computer science, biology, and some late 20th Century advancements in pure mathematics. Credit may not be counted toward the mathematics major. Enrollment Restrictions: Enrollment restricted to students who have completed the Lower-Division General Education requirement in Mathematics/Quantitative Reasoning (B4).

    Satisfies GE area: BB
  

  • MATH 304 - Women and Mathematics

    Units: 3
    Examination of the social phenomena that have led to the small number of women in the mathematical profession. Exploration of the controversy concerning research on the comparative mathematical ability of boys and girls. Study of the lives, times, and works of women mathematicians. Enrollment Restrictions: Enrollment restricted to students who have completed the Lower-Division General Education requirement in Mathematics/Quantitative Reasoning (B4).

    Satisfies GE area: BB
  

  • MATH 308 - Non-Statistical Mathematics in the Social Sciences

    Units: 3
    Themes involving applications of mathematics in the social sciences such as: proportional representation, voting rules and aggregation of individual preferences, spatial models of election competition, power in weighted voting systems, power indices in politics, balance theory and social inequalities, measurement theory, game theory, static models of animal dominance, rumor and information networks. May not be taken for credit by students who received credit for: MATH 404. Enrollment Restrictions: Enrollment restricted to students who have completed the Lower-Division General Education requirement in Mathematics/Quantitative Reasoning (B4).

    Satisfies GE area: BB
  

  • MATH 311 - Mathematics for K-8 Teachers III: Algebra, Probability, Statistics, and Data Analysis

    Units: 3
    Designed to reinforce mathematical concepts for those teaching grades K-8. Emphasis on linear and quadratic equations and inequalities; collection, organization, and representation of data; inferences, predictions, and arguments based on data; basic notions of chance and probability; appropriate use of technology; and historical/cultural perspectives. May not be taken for credit by students who received credit for: MATH 311B . Credit may not be counted toward the mathematics major.

    Prerequisite(s): MATH 212  with a grade of C (2.0) or better.
  

  • MATH 311B - Mathematics for K-8 Teachers III: Algebra, Probability, Statistics, and Data Analysis

    Units: 3
    Designed to reinforce mathematical concepts for those teaching grades K-8. Emphasis on linear and quadratic equations and inequalities; collection, organization, and representation of data; inferences, predictions, and arguments based on data; basic notions of chance and probability; appropriate use of technology; and historical perspectives. May not be taken for credit by students who received credit for: MATH 311 . Credit may not be counted toward the mathematics major. Enrollment Restrictions: Enrollment restricted to students participating in the Integrated Credential Program.

    Prerequisite(s): MATH 212  with a grade of C (2.0) or better.
    Corequisite(s): EDMS 512B , EDMS 522B , EDMS 543B .
  

  • MATH 314 - Workshop for Future Mathematics Educators

    Units: 2
    Provides a discussion forum for students pursuing the Mathematics Single-Subject CSET Waiver Program, while co-enrolled in EDUC 350 - Foundations of Teaching as a Profession . Discussions focus on various mathematical subject matter typically presented in secondary-level classrooms, which students visit and observe in EDUC 350 . Students link their observations from the field experience to their own study of relevant mathematical skills and knowledge. Credit may not be counted towards the mathematics major. Grading Basis: Graded Credit / No Credit.

    Prerequisite(s): MATH 162  with a grade of C (2.0) or better.
    Corequisite(s): EDUC 350 .
  

  • MATH 315 - Finite Mathematics

    Units: 3
    Sets, permutations, combinations, probability, linear equations and inequalities, matrices, linear programming, and finance. Credit may not be counted toward the mathematics major. May not be taken for credit by students who received credit for: May not be taken for credit by students who have received credit for MATH 130. Enrollment Restrictions: Enrollment restricted to students who have completed the lower-division General Education requirement in Mathematics/Quantitative Reasoning (B4).

    Satisfies GE area: BB
  

  • MATH 330 - Introduction to the History of Mathematics

    Units: 3
    Major currents in the evolution of mathematical thought from early civilization to modern times.

    Prerequisite(s): MATH 160  with a grade of C (2.0) or better.
  

  • MATH 342 - Probability and Statistics for Engineers and Scientists

    Units: 3
    Introduction to probability and statistical methods applicable to engineering and science. Includes basic probability theory, special random variables and their uses, sampling distributions and the Central Limit Theorem, estimating parameters and finding confidence intervals, hypothesis testing, simple linear regression, and quality control. May not be taken for credit by students who received credit for: MATH 440 , or MATH 442 . Credit may not be counted toward the mathematics major.  Cross-listed: MATH 342 and EE 342  are cross-listed. Students may not receive credit for both.

    Prerequisite(s): MATH 260  with a grade of C (2.0) or better. 
  

  • MATH 346 - Mathematical Methods for Physics

    Units: 3
    Survey of mathematical methods applicable to physics. Includes series, complex analysis, ordinary and partial differential equations, and special functions and transforms. Recommended Preparation: MATH 260 .

    Prerequisite(s): MATH 162  with a grade of C (2.0) or better.
  

  • MATH 350 - Foundations for Theoretical Mathematics

    Units: 3
    Bridge course between computation-driven mathematics and theoretical mathematics.  Designed to familiarize the student with the language and process of rigorous mathematical thought, speech, and writings through the introduction of typical and important examples from algebra, analysis, combinatorics, and geometry.  Covers elementary logic, methods of proof, mathematical induction, sets, relations, equivalence relations, functions, inverse functions, binary operations and cardinality.   Mathematics majors are encouraged to take this course as early as possible. Enrollment Requirement(s): for graduate students  MATH 160  with a grade of A- (3.7) or better, or MATH 162  with a grade of C (2.0) or better. 

    Prerequisite(s): for undergraduates MATH 160  with a grade of A- (3.7) or better, or MATH 162  with a grade of C (2.0) or better.
  

  • MATH 362 - Differential Equations

    Units: 3
    Analysis and application of ordinary differential equations: linear and nonlinear equations, existence and uniqueness theorems, analytic methods, qualitative analysis of solutions, and numerical methods. Combines theoretical ideas along with hands-on experience using appropriate computer software. Enrollment Requirement(s): for graduate students  MATH 162  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 162  with a grade of C (2.0) or better.
  

  • MATH 374 - Linear Algebra

    Units: 3
    Systems of linear equations, vector spaces, independence, bases, dimension, orthogonality, least squares, determinants, eigenvalues and eigenvectors, positive definiteness, computation, and linear programming. Combines theoretical ideas with hands-on experience using appropriate computer software packages. Enrollment Requirement(s): for graduate students MATH 160  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 160  with a grade of C (2.0) or better.
  

  • MATH 378 - Number Systems

    Units: 3
    Numbers: natural, rational, real, and complex. Algebraic laws: commutative, associative, and distributive. Brief introduction to groups, rings, and fields. Divisibility and unique factorization for integers and polynomials. Integers modulo n as finite rings and fields. The rational numbers as a non-complete countable ordered field. The real numbers as a complete uncountable ordered field. Sequences and limits including Cauchy sequences, lim inf and lim sup. Complex numbers including De Moivre’s theorem and related trigonometric identities. Factoring polynomials over the various number systems. The Fundamental Theorem of Algebra. Enrollment Requirement(s): for graduate students MATH 350  or MATH 370 with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 350  or MATH 370 with a grade of C (2.0) or better.
  

  • MATH 410 - Modern Geometry

    Units: 3
    Critical review of the foundations and basic structure of plane and solid Euclidean geometry, non-Euclidean geometries, incidence and affine geometries; convexity and applications. Enrollment Requirement(s): for graduate students MATH 350  or MATH 370 with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 350  or MATH 370 with a grade of C (2.0) or better.
  

  • MATH 422 - Introduction to Number Theory

    Units: 3
    Divisibility, Euclidean algorithm, unique factorization, congruences, and quadratic reciprocity. May also cover some of the following: included primitive roots and indices, continued fractions, sum of squares, introduction to Diophantine equations, prime numbers, pseudo-primes, the prime number theorem, and factorization and primality-testing algorithms. May not be taken for credit by students who received credit for: MATH 372. Enrollment Requirement(s): for graduate students MATH 378  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 378  with a grade of C (2.0) or better.
  

  • MATH 424 - Introduction to Cryptography

    Units: 3
    Basic theory and practice of cryptography in computer security. Mathematics behind cryptography including number theory, group theory, and probability theory. Covers cryptographic algorithms including symmetric key systems, public key systems, hash functions, and digital signatures.

    Prerequisite(s): MATH 270  with a B (3.0) or better or MATH 350  with a C (2.0) or better.
  

  • MATH 430 - Foundations of Analysis

    Units: 3
    A classical treatment of the basic concepts of calculus of one variable: the real number system, limits, continuity, differentiability, the Riemann integral, and sequences and series of numbers and functions. May not be taken for credit by students who received credit for: MATH 360. Enrollment Requirement(s): for graduate students MATH 378  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 378  with a grade of C (2.0) or better.
  

  • MATH 440 - Introduction to Mathematical Probability and Statistics

    Units: 4
    Basic concepts of probability: axiomatic formulation, combinatorics, conditional probability, independence, standard discrete and continuous random variables, expectation, variance, joint distributions, limit theorems. Statistical inference: tests of significance, point estimation methods, confidences intervals, simple linear regression. Combines theoretical ideas with hands-on experience using appropriate computer software packages. May not be taken for credit by students who received credit for: MATH 441 . Enrollment Requirement(s): for graduate students MATH 260  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 260  with a grade of C (2.0) or better.
  

  • MATH 441 - Introduction to Probability

    Units: 3
    Discrete and continuous probability spaces, axiomatic formulation, combinatorics, conditional probability and independence, standard discrete and continuous probability distributions (including uniform, Bernoulli, binomial, Poisson, geometric, normal, and exponential), random variables, expectation and variance, joint distributions, and limit theorems. Emphasis on modeling. Simple proofs required. Additional topics may include random walks, branching processes, and generating functions. May not be taken for credit by students who received credit for: MATH 440 . Enrollment Requirement(s): for graduate students MATH 260  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 260  with a grade of C (2.0) or better.
  

  • MATH 442 - Introduction to Mathematical Statistics

    Units: 3
    Data analysis and inferential statistics: random samples, estimation, sufficient statistics, confidence intervals, hypothesis tests, curve fitting, linear regression, least squares, and goodness of fit. Covers both theory and applications, with emphasis on applications. Simple proofs required. Enrollment Requirement(s): for graduate students MATH 441  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 441  with a grade of C (2.0) or better.
  

  • MATH 448 - Mathematical Models and Methods in Biology

    Units: 3
    Introduces mathematical models in Biology and their analysis. Both one dimensional models, including the Malthusian Model and the logistic model, and multi-dimensional models, including structured population models and predator-prey models, are studied, as are matrix models for base substitution in DNA, phylogenetic trees, and sequence alignment. Mathematical concepts and methods to formulate and analyze these models include limits, derivatives, matrix algebra, eigenvectors, probability theory, and dynamic programming. Software is used to simulate models and visualize the numerical results. Enrollment Requirement(s): MATH 160  with a grade of C (2.0) or better.

  

  • MATH 464 - Numerical Analysis and Computing

    Units: 3
    Computer arithmetic, solution of a single algebraic equation, interpolating polynomials, numerical integration, error analysis, and computational effort of numerical algorithms. Combines theoretical ideas with hands-on laboratory experience.

    Prerequisite(s): CS 111  and MATH 162 .
  

  • MATH 465 - Introduction to Numerical Linear Algebra

    Units: 3
    Uses results from linear algebra to derive and analyze numerical methods for the solution of linear equation systems and related problems. Includes algorithms for matrix multiplications, complexity of algorithms, singular value decomposition, triangular systems and the LU decomposition, condition numbers of matrices, the least square problem, and use of software to implement and test matrix algorithms. 

    Prerequisite(s): CS 111  and either MATH 264  or MATH 374 .
  

  • MATH 470 - Introduction to Abstract Algebra

    Units: 3
    An introduction to the theory of groups, rings, and fields, with abstract ideas reinforced by concrete and important examples, such as permutation groups, polynomial rings, and finite fields. The power of the axiomatic systems introduced will be illustrated via several applications to concrete and classical problems. Enrollment Requirement(s): for graduate students  MATH 378  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 378  with a grade of C (2.0) or better.
  

  • MATH 472 - Introduction to Graph Theory

    Units: 3
    Fundamental concepts of undirected and directed graphs, trees, connectivity and traversability, planarity, colorability, networks, and matchings; emphasis on modern applications. Enrollment Requirement(s): for graduate students MATH 378  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 378  with a grade of C (2.0) or better.
  

  • MATH 474 - Introduction to Combinatorics

    Units: 3
    Introduction of the basic tools of combinatorics and their applications. Permutations, combinations, pigeonhole principle, binomial coefficients, occupancy problems, general counting sequences, recurrences, inclusion/exclusion, combinatorial identities, and generating functions.  Enrollment Requirement(s): for graduate students MATH 374  with a grade of C (2.0) or better; and either MATH 350  with a grade of C (2.0) or better, or MATH 270  with a grade of B (3.0) or better.

    Prerequisite(s): for undergraduate students MATH 374  with a grade of C (2.0) or better; and either MATH 350  with a grade of C (2.0) or better, or MATH 270  with a grade of B (3.0) or better.
  

  • MATH 480 - Introduction to Optimization

    Units: 3
    Modern study of linear programming with an emphasis on model formulation, solution, and interpretation of software output. Applications in work-scheduling, diet, capital budgeting, blending, production process, transportation, assignment, transshipment, and flow problems. Programming methods include the simplex method and its specialized variations, Big M Method, goal programming, and integer programming. Theoretical aspects include optimality conditions, sensitivity analysis, and duality. Requires using industry-standard software to strengthen the ideas and concepts. Cross-listed: MATH 480 and CS 480  are cross-listed. Students may not receive credit for both. Enrollment Requirement(s): for graduate students MATH 374  with a grade of C (2.0) or better.

    Prerequisite(s): for undergraduates MATH 374  with a grade of C (2.0) or better. 
  

  • MATH 490 - Senior Seminar

    Units: 3
    Presentation and discussion of selected areas of mathematics in order to supplement available offerings. Sample areas include differential forms, complex variables, partial differential equations, and a second course in analysis, abstract algebra, or discrete math. May be repeated twice as course content changes, with consent of the program, for a maximum of nine (9) units of credit from MATH 490 and MATH 491 . Enrollment Requirement(s): Twelve (12) units of upper-division mathematics. Other requirements to be determined by instructor.

  

  • MATH 491 - Senior Seminar with Lab

    Units: 3
    Presentation and discussion of selected areas of mathematics in order to supplement available offerings. Sample areas include mathematical modeling and a second course in numerical analysis, optimization, or statistics. This course meets for four hours per week. May be repeated for a maximum of nine (9) units of credit for MATH 490  and 491. Enrollment Requirement(s): Twelve (12) units of upper-division mathematics. Other requirements to be determined by instructor.

  

  • MATH 495 - Internship in Mathematics

    Units: 1-3
    Faculty-sponsored academic internship in business, industrial, government, research firm, or university labs and centers. Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor.

  

  • MATH 498A - Individual Study in Mathematics

    Units: 1
    Individually directed reading and study in mathematical sciences literature. May be repeated for a maximum of three (3) units. Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor. Enrollment Requirement(s): Twelve (12) units of upper-division Mathematics.

  

  • MATH 498B - Individual Study in Mathematics

    Units: 2
    Individually directed reading and study in mathematical sciences literature. May be repeated for a maximum of three (3) units. Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor. Enrollment Requirement(s): Twelve (12) units of upper-division Mathematics.

  

  • MATH 498C - Individual Study in Mathematics

    Units: 3
    Individually directed reading and study in mathematical sciences literature. May be repeated for a maximum of three (3) units. Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor. Enrollment Requirement(s): Twelve (12) units of upper-division Mathematics.

  

  • MATH 499A - Independent Research in Mathematics

    Units: 1
    Designed for students capable of independent and original research. May be repeated for a maximum of three (3) units. Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor. Enrollment Requirement(s): Twelve (12) units of upper-division mathematics.

  

  • MATH 499B - Independent Research in Mathematics

    Units: 2
    Designed for students capable of independent and original research. May be repeated for a maximum of three (3) units. Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor. Enrollment Requirement(s): Twelve (12) units of upper-division mathematics.

  

  • MATH 499C - Independent Research in Mathematics

    Units: 3
    Designed for students capable of independent and original research. May be repeated for a maximum of three (3) units. Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor. Enrollment Requirement(s): Twelve (12) units of upper-division mathematics.

  

  • MATH 500 - TEST C Form MATH

    Units: 03
    This is a test for the new administrative fields in the Curriculog C form. I am including only the course description in this field for testing purposes. May be repeated for credit for a total of six (6) units. May not be taken for credit by students who received credit for: ST: MATH 450-01 Cross-listed: MATH 500 and CHEM 500 are cross-listed. Students may not receive credit for both. Yes SL Grading Basis: Credit / No Credit Enrollment Restrictions: Junior or Senior Standing Two hours of lecture. One hour of laboratory. Recommended Preparation: Read “Math of the Universe.”

    Prerequisite(s): MATH 250
    Corequisite(s): MATH 350
    Prerequisite(s)/Corequisite(s): MATH 450
    Satisfies GE area: Yes GE
    Satisfies Diversity & Equity area: Yes DE
  

  • MATH 503 - Cryptography

    Units: 3
    Fundamentals of protecting confidentiality, integrity and availability of information in computer systems. This course covers the fundamentals of cryptographic concepts and methods. Several encryption/decryption algorithms will be discussed. The topics include an introduction to the mathematics behind cryptography including number theory, group theory, and probability theory; cryptographic algorithms including classical methods, symmetric key systems, public key systems, hash functions, digital signatures and certificates; cryptanalysis and attacks; and access control including authentication and authorization.orization. Assignments include programming labs to apply public keys, dictionary attacks, digital signatures, and certificates. May not be counted towards the Master’s degree in Mathematics.

  

  • MATH 505 - Readings from Original Sources

    Units: 3
    Mathematics studied through the reading, analysis, and discussion of original papers. May be repeated once for credit with consent of instructor. Enrollment Requirement(s): Enrollment requirements to be determined by instructor.

  

  • MATH 510 - Mathematical Communication

    Units: 3
    Selected topics in advanced mathematics chosen to demonstrate appropriate use of technology and effective organization and presentation of mathematics in oral and written form. Includes three aspects of mathematical writing: writing expository mathematics, writing formal mathematics, and writing as a tool to learn; preparation of mathematical lectures; and development software modules/notebooks. Enrollment Requirement(s): At least nine (9) other units of upper-division mathematics.

    Prerequisite(s): for undergraduates and enrollment requirement(s) for graduate students: MATH 350  with a grade of C (2.0) or better.
  

  • MATH 520 - Algebra

    Units: 3
    Review and continuation of the study of algebra begun in MATH 470. Covers some of the following: the theory of finite group theory including the Sylow Theorems, polynomial ring, unique factorization, number fields, and finite fields. The latter half of the course will cover field extensions and Galois Theory, including the classic theorems on the unsolvability of the general quintic and the impossibility of certain ruler and compass constructions, such as trisecting an angle.

    Prerequisite(s): For undergraduate students and enrollment requirement For graduate students: MATH 470  with a grade of C (2.0) or better.
  

  • MATH 521 - Computational and Applied Algebra

    Units: 3
    Introduction to algebraic tools and ideas that have applications in such fields as cryptography, coding theory, number theory, algebraic geometry, integer programming, computing modeling, and robotics. Includes some of the following: finite fields, Gröbner bases, resultants, algebraic curves, and their codes.

    Prerequisite(s): for undergraduate students and enrollment requirement(s) for graduate students: MATH 470  with a grade of C (2.0) or better.
  

  • MATH 522 - Number Theory

    Units: 3
    Introduction to number theory from the algebraic and/or analytic point of view. Includes some of the following: congruences, finite fields and rings, and quadratic reciprocity; quadratic forms and Diophantine equations; elliptic curves; the Gaussian integers, the Eisenstein integers, and unique factorization in these rings; other quadratic and cyclotomic fields and ideal factorization; and introduction to analytic number theory, primes in arithmetic progressions, and the prime number theorem.

    Prerequisite(s): For undergraduate students and enrollment requirement For graduate students: MATH 470  with a grade of C (2.0) or better.
  

  • MATH 523 - Cryptography and Computational Number Theory

    Units: 3
    Algorithms for factorization and primality testing: pseudo-primes, quadratic sieve, Lucas Test, continued fractions, factorization using elliptic curves, and public key cryptosystems such as RSA, which is widely used for secure transfer of data on the internet. Additional background material (such as the rudiments of elliptic curves) will be introduced as needed. Combines theoretical ideas with computer lab experimentation and implementation. Recommended Preparation: Some familiarity with a computer language is useful but not required.

    Prerequisite(s): For undergraduates and enrollment requirement for graduate students: MATH 370 or MATH 378  with a grade of C (2.0) or better.
  

  • MATH 528 - Advanced Linear Algebra

    Units: 3
    Vector spaces; dual spaces; linear transformations; bilinear forms and their matrix representations; Jordan and other canonical forms; finite-dimensional spectral theory; and connections to other branches of mathematics.

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 374  with a grade of C (2.0) or better.
  

  • MATH 530 - Measure Theory

    Units: 3
    Lebesgue measure, measurable functions, the Lebesgue integral, Fubini’s Theorem, Lp-spaces, and differentiation.

    Prerequisite(s): for undergraduates and enrollment requirement(s) for graduate students: MATH 430  with a grade of C (2.0) or better.
  

  • MATH 532 - Ordinary Differential Equations

    Units: 3
    Theory and applications of ordinary differential equations. Existence and uniqueness of solutions, methods for solving equations, linear differential equations, singularities, qualitative analysis of solutions, and systems of equations.

    Prerequisite(s): for undergraduates and enrollment requirement for graduate students: MATH 374  and MATH 430  with a grade of C (2.0) or better.
  

  • MATH 534 - Partial Differential Equations

    Units: 3
    Theory and applications of partial differential equations. Cauchy problems, boundary problems, the Cauchy-Kovalevsky Theorem, Fourier Series, harmonic functions, elliptic equations, and hyperbolic equations. Enrollment Requirement(s): MATH 260  and MATH 362 .

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 374  and MATH 430 .
  

  • MATH 535 - Multivariable Advanced Calculus

    Units: 3
    Analysis in several variables including multivariable derivatives and integrals, inverse function theorem, implicit function theorem, and generalizations of the fundamental theorem of calculus (e.g., Stokes’ Theorem). Some of these topics may be presented from the point of view of differential forms. Enrollment Requirement(s): MATH 260 .

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 374  and MATH 430 .
  

  • MATH 536 - Complex Analysis

    Units: 3
    Study of functions of a complex variable, including analytic functions, contour integrals, Cauchy’s Theorem, poles and residues, Liouville’s Theorem, Laurent Series, the Residue Theorem, analytic continuation, and conformal mappings.

    Prerequisite(s): for undergraduates and enrollment requirement(s) for graduate students: MATH 430  with a grade of C (2.0) or better.
  

  • MATH 537 - Calculus of Variations

    Units: 3
    Study of the theory of maximum and minimum values of functions defined on spaces of infinite dimension. Includes topics such as Euler’s equation, geodesics, the isoperimetric problem, optimization constrained by subsidiary conditions, and the Weierstrass-Erdman corner conditions. Emphasis to be on both theory and application.

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 362 , MATH 374 , and MATH 430 .
  

  • MATH 538 - Applicable Analysis

    Units: 3
    Foundations of functional analysis; linear and metric spaces; different modes of convergence; Hilbert Space; and applications. May include topics such as calculus of variations, fixed point theorems, and operator theory.

    Prerequisite(s): for undergraduates and enrollment requirement(s) for graduate students: MATH 362 , MATH 374 , and MATH 430  with grades of C (2.0) or better.
  

  • MATH 540 - Concrete Mathematics

    Units: 3
    Blend of continuous and discrete topics including sums, recurrences, elementary number theory, binomial coefficients, generating functions, discrete probability, and asymptotic methods.

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 350  or 370 or MATH 470  or MATH 472  or MATH 474 .
  

  • MATH 541 - Structural Graph Theory

    Units: 3
    Material covered will be selected from a subset of the following subjects: trees and cycles; independence and matching; graph partitioning, packing, and covering; tournaments; flows; algorithmic aspects; topological graph theory; and facility location.

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 350  or 370 or MATH 470  or MATH 472  or MATH 474 .
  

  • MATH 542 - Advanced Graph Theory

    Units: 3
    Graphs and digraphs; traversability; factorization; planarity and embedding; coloring; graph Ramsey theory; probabilistic methods; extremal graph theory; and algebraic graph theory.

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 350  or 370 or MATH 470  or MATH 472  or MATH 474 .
  

  • MATH 544 - Advanced Combinatorics

    Units: 3
    Enumeration; combinatorial set systems; combinatorial designs; Ramsey theory; combinatorial optimization; matroids; and axiomatic social choice.

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 350  or 370 or MATH 470  or MATH 472  or MATH 474 .
  

  • MATH 550 - Geometry

    Units: 3
    Geometric ideas selected from the following fields: euclidean geometry, hyperbolic geometry, projective geometry, introductory algebraic geometry, and computational geometry. Combines theoretical ideas with hands-on laboratory experience.

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 374  and MATH 470 .
  

  • MATH 552 - Introduction to Differential Topology and Geometry

    Units: 3
    Introduction to curves, surfaces, and possibly higher dimensional manifolds from the point of view of differential topology and/or differential geometry. Includes some of the following: Curves (e.g., Frenet-Serret Theorem and its consequences, isoperimetric inequality, four-vertex theorem, line integrals, Fenchel’s Theorem); the topological classification of surfaces, vector fields, and curvature on surfaces (leading up to some of the following: geodesics, minimal surfaces, Gauss’s theorema egregium, and the Gauss-Bonnet Theorem); and introduction to higher dimensional manifolds, differential forms, and integration (possibly including Stokes’ Theorem and global invariants such as the Euler characteristic and de Rham cohomology). Enrollment Requirement(s): MATH 260 .

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 374  and MATH 430 .
  

  • MATH 555 - General Topology

    Units: 3
    Topological spaces, open and closed sets, metric spaces, continuity, compactness, and connectedness. Other subjects may include separation axioms, fundamental groups, classification of surfaces, and completion of metric spaces.

    Prerequisite(s): for undergraduates and enrollment requirement(s) for graduate students: MATH 430  with a grade of C (2.0) or better.
  

  • MATH 561 - Computational Linear Algebra for the Eigenvalue Problem

    Units: 3
    Provides a thorough background in the formulation and analysis of algorithms for the computation of eigenvalues and eigenvectors. Includes rank revealing factorizations, orthogonal transformations, perturbation theory for matrices, power iterations, and the QR algorithm for unsymmetric and symmetric matrices. Software will be used to implement and test algorithms. Knowledge of computer language is required.

    Prerequisite(s): for undergraduates and enrollment requirement(s) for graduate students: MATH 465  with a grade of C (2.0) or better. 
  

  • MATH 563 - Numerical Solution of Ordinary Differential Equations

    Units: 3
    Survey of numerical methods for the solution of ordinary differential equations including Runge-Kutta, Taylor’s, Voterra, and multistep methods. Analysis of convergence and implementation of various methods using numerical software. Covers the stability of differential equations and stability regions for numerical schemes. Subjects include the method of lines, two-point boundary value problems, and Volterra integral equations.

    Prerequisite(s): MATH 362  and MATH 374  with a grade of C (2.0) or better.
  

  • MATH 564 - Nonlinear Programming

    Units: 3
    Theory and techniques for solving constrained and unconstrained nonlinear programming problems. Techniques include Quasi-Newton Secant Methods, Broyden’s Method, conjugate gradient methods, and line search methods. Theoretical aspects include convexity, Lagrangian Multipliers, optimality conditions, convergence, primal problem, duality, saddle points, and line searches.

    Prerequisite(s): For undergraduates and enrollment requirement(s) or graduate students: MATH 374  or MATH 480  or CS 480  with a grade of C (2.0) or better.
  

  • MATH 570 - Introduction to Stochastic Processes

    Units: 3
    Elements of stochastic processes, discrete-time and continuous-time Markov chains, random walks, branching processes, birth and death processes, and Poisson point processes. Applications to queues and stochastic networks, resource management, biology, and physics. May include optimal stopping, hidden Markov models, renewal processes, martingales, Brownian motion, and Gaussian processes.

    Prerequisite(s): For undergraduates and enrollment requirement For graduate students: MATH 430  and either MATH 440  or MATH 441  with grades of C (2.0) or better.
  

  • MATH 571 - Probability and Random Processes

    Units: 3
    Framework for probability theory: probability spaces as measure spaces, random variables, expectation and conditional probability. Major results such as limit theorems for sums of random variables, zero-one laws, and ergodic theorems. Applications may include branching processes, Markov Chains, Markov Random Fields, martingales, percolation, Poisson Processes, queuing theory, random walks, and renewal processes.

    Prerequisite(s): for undergraduates and enrollment requirement for graduate students: MATH 430  with a grade of B (3.0) or better, OR (MATH 430  and either MATH 440   or MATH 441  and MATH 470) with a grades of C (2.0) or better. 
  

  • MATH 620 - Seminar in Advanced Mathematics

    Units: 3
    Advanced mathematics chosen from areas represented in the program faculty and intended to build on 500-level material. Covers the following: algebra and number theory, analysis, combinatorics and graph theory, computational mathematics, geometry, and probability. May be repeated for a maximum of twelve (12) units of credit for MATH 620 and MATH 621 . Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor.

  

  • MATH 621 - Seminar in Advanced Mathematics with Lab

    Units: 3
    Advanced mathematics chosen from areas represented in the program faculty and intended to build on 500-level material. Covers the following: algebra and number theory, analysis, combinatorics and graph theory, computational mathematics, geometry, and probability. This course meets for four hours per week. May be repeated for a maximum of twelve (12) units of credit for MATH 620  and 621. Enrollment Restrictions: Enrollment restricted to students who have obtained consent of instructor.

  

  • MATH 697 - Workshop in the Teaching of Mathematics

    Units: 1
    Discussion of syllabus construction, lecture preparation, assignment and grading of homework, construction and grading of exams, and resolution of classroom problems. May be repeated, but credit will not be counted toward the Master of Science degree. Grading Basis: Graded Credit/No Credit. Enrollment Restrictions: Enrollment restricted to students with graduate standing in mathematics.

  

  • MATH 698 - Preparation for Graduate Comprehensive Examination

    Units: 3
    Independent preparation for taking the Master of Science in Mathematics Comprehensive Examination. May be repeated for credit for a total of nine (9) units, but students may enroll in only one section per semester, a maximum of three (3) units will be counted toward the Master of Science in Mathematics degree. Grading Basis: Credit / No Credit. Enrollment Restrictions: Enrollment restricted to students with graduate student standing in mathematics who have advanced to candidacy under the Comprehensive Exam Option, and requires the approval of the Graduate Coordinator. 

  

  • MATH 699 - Thesis

    Units: 3
    Preparation of a thesis for the master’s degree. May be repeated for a total of six 6 units, but students may enroll in only one section per semester. Grading Basis: Graded Credit/No Credit. Enrollment Requirement(s): approval of the graduate coordinator.


Media Studies
  

  • MDIA 301 - Media Theory

    Units: 3
    Introduction to the theories of mediated communication, including theories based on normative, critical/cultural, and social scientific approaches. Explores the historical development of the major Western philosophical perspectives regarding the media and their role and impact in society.

  

  • MDIA 303 - Histories of Media Technologies

    Units: 3
    A critical and historical examination of 19th, 20th, and 21st century analog and digital media/communication technologies. Introduces the role of media technology in human creative activity and examines the contexts in which new technologies come into use. Examines economic and political issues that have (and do) influence the selection of some technologies and standards over others. Students may have the opportunity to create media projects applying course concepts.

  

  • MDIA 304 - Global Media

    Units: 3

    An exploration of “globalization” as an historical - as well as a contested - process, and of cultural, social, technological economic, and political processes at work in “media globalization.” Case studies link discussions of specific forms (i.e., music, radio, video, journalism, internet, mobile phones, broadcast satellites, and points of origin) to old and new audiences. These case studies are contextualized in a consideration of specific communication processes associated with trade, war, community development, policy making and reform, and privatization/deregulation.

     

  

  • MDIA 322 - Media Power

    Units: 3

    Illustrates how media power operates in culture through discourse in local and global contexts. Students examine the power dynamics among producers, subjects and audiences in and around the media: who makes what for whom and how. Readings and discussions will explore power-inflected relations in media, along with discovering possibilities in how to reclaim media power. What happens when historical others make work about themselves, their cultures and communities?

     

 

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