Undergraduate Courses
Elementary Courses
MAT 010 Elementary Algebra
MAT 011B Intermediate Algebra
MAT 015B Mathematics for Proficiency
100 Level Courses
MAT 105D Mathematics for Quantitative Decision Making
MAT 107 Algebra and Discrete Mathematics MAT 108
College Algebra
MAT 120D Introduction to Statistics
MAT 131 Number Systems for Elementary Teachers
MAT 140D Pre-Calculus Mathematics
MAT 152D Calculus A
MAT 153 Calculus B
COS 160 Structured Problem Solving: C++
COS 170 Structured Programming Laboratory
200 Level Courses
MAT 211D Probability
MAT 212 Statistics
MAT 220 Statistics for the Biological Sciences
MAT 231 Algebra for Elementary Teachers
MAT 232 Geometry for Elementary Teachers
MAT 252 Calculus C
MAT 260 Technological Tools for Math Sciences
MAT 264 Statistical Software Package
MAT 281 Introduction to Probability
MAT 282 Statistical Inference
MAT 290 Foundations of Mathematics
MAT 292 Theory of Numbers
MAT 295 Linear Algebra
300 Level Courses
MAT 350 Differential Equations
MAT 352 Real Analysis
MAT 355 Complex Analysis
MAT 364 Numerical Analysis
MAT 366 Deterministic Models in Operations research
MAT 370 Non-Euclidean Geometry
MAT 371 College geometry
MAT 380 Probability and Statistics
MAT 383 System Modeling and Simulation
MAT 384 Non-Parametric Methods
MAT 386 Sampling Techniques
MAT 388 Statistical Quality Control
MAT 395 Abstract Algebra
MME 345 Teaching Mathematics in the Secondary School
400 Level Courses
MAT 460 Mathematical Modeling
MAT 461 Stochastic Models in Operations Research
MAT 482 Introduction to Time Series Analysis
MAT 484 Design and Analysis of Experiments
MAT 490 Topology
MAT 492 Graph Theory and Combinatorics
MAT 497 Independant Study in Mathematics
MAT 498 Topics
MAT 010 Elementary Algebra
The first course of a two-course sequence designed for students who are
deficient in high school algebra. Topics covered include: basic operations with
integers and rational numbers; equations with variables; algebra word problems;
operations with polynomials and algebraic fractions (including factoring), and
operations with exponential and radical expressions. Prerequisite: MAT 009 or
its equivalent. Associate degree credit only. Cr 3.
MAT 011B Intermediate Algebra
A continuation of MAT 010. Topics include: graphing linear equations in two
variables; quadratic equations; graphs of functions and relations; conic
sections; solutions to systems of equations; solutions for inequalities; and
exponential and logarithmic functions. Prerequisite: one year of high school
algebra or MAT 010. Associate degree credit only. Cr 3.
MAT 015B Mathematics for Proficiency
This is a remedial algebra course that prepares students for courses in the
quantitative decision making component of the Core. The course presents the
material as four major themes: numerical computation; the use of variables and
variable expressions as a transition from arithmetic to algebra; techniques for
solving equations emphasizing graphical, numerical, and algebraic analysis; and
the unifying concept of functions. Cr 4.
MAT 105D Mathematics for Quantitative Decision
Making
This course is designed to give students not majoring in mathematics or related
fields an understanding of some key ideas in quantitative decision making. The
material is chosen to develop awareness of the utility of mathematics in life
and to instill an appreciation of the scope and nature of its decision-making
potential. The computer packaged programs may be used as tools to assist the
students in performing calculations necessary for the decision-making process.
Prerequisite: successful completion of the University's mathematics proficiency
requirement. Cr 3.
MAT 107 Algebra and Discrete Mathematics
This course will contain a review of basic algebra and other elementary
mathematical concepts, including an introduction to discrete mathematics
necessary for a study of computer science. A study of functions, sets, basic
logic, matrix algebra, and combinatorics will be a central part of the course.
Prerequisite: successful completion of the University's proficiency
requirement. Cr 3.
MAT 108 College Algebra
Building on the foundation of algebra skills expected of all students meeting
admission requirements, this course reviews basic algebraic operations and the
general concepts of sets, relations, functions (polynomial, rational,
logarithmic, and exponential), and their graphs. Methods of solving equations
and inequalities, as well as systems of equations, will be stressed. Additional
topics may include matrices, determinants, permutations, combinations,
sequences, and mathematical induction. Prerequisite: successful completion of
the mathematics proficiency requirement and a passing grade on an algebra
competency test which will be administered at the first class meeting. Cr 3.
MAT 120D Introduction to Statistics
An introductory course including basic probability, random variables, and their
distributions; estimation and hypothesis testing; regression and correlation.
Prerequisite: successful completion of the University's mathematics proficiency
requirement. Cr 3.
MAT 131 Number Systems for Elementary Teachers
This is the first course in a three-course sequence in mathematics recommended
by the Committee on the Undergraduate Mathematics Program of the Mathematical
Association of America for prospective primary and elementary teachers. Major
emphasis is placed on an intuitive approach to the real number system and its
subsystems. Prerequisite: successful completion of the University's mathematics
proficiency requirement. Cr 3.
MAT 140D Pre-Calculus Mathematics
A brief review of elementary algebra followed by a study of the algebraic,
exponential, logarithmic, and trigonometric functions. Prerequisites:
successful completion of the University's mathematics proficiency requirement
and a passing grade on an algebra competency test which will be administered at
the first class meeting. Cr 3.
MAT 152D Calculus A
This is the first of a sequence of three basic calculus courses covering
functions of one or more variables, graphs, limits, derivatives, integrals,
optimization, infinite series, vectors, and various applications. Calculus A
provides an introduction to the differential and integral calculus of functions
of one variable. Prerequisite: two years of high school algebra plus geometry
and trigonometry, or MAT 140D. Cr 4.
MAT 153 Calculus B
A continuation of Calculus A. Calculus B will usually include infinite series
and an introduction to vectors. Prerequisite: MAT 152D .
Cr 4.
MAT 211D Probability
This course investigates common probability laws and distributions of discrete
and continuous random variables. Business applications in probability are
emphasized. Prerequisite: MAT 108 or its equivalent. Cr
3.
MAT 212 Statistics
Sampling distributions; estimation; hypothesis testing; introduction to
regression analysis and analysis of variance. Applications primarily in
business and economics. Prerequisite: MAT 211D . Cr 3.
MAT 220 Statistics for the Biological Sciences
This course treats basic statistical methods as applied to the biological
sciences. The topics emphasized are descriptive statistics, discrete and
continuous distributions, statistical estimation, hypothesis testing
procedures, chi-square methods (goodness of fit and two-way tables), analysis
of variance, and simple and multiple regression. Students will use at least one
computer-based statistical package. Prerequisite: MAT 152D
. Cr 4.
MAT 231 Algebra for Elementary Teachers
The second course in a three-course sequence in mathematics recommended by the
Committee on the Undergraduate Mathematics Program of the Mathematical
Association of America for prospective primary and elementary teachers.
Emphasis is upon the properties of operations in several different algebraic
systems. Equations are studied in finite systems as well as in conventional
algebra. Prerequisite: MAT 131 . Cr 3.
MAT 232 Geometry for Elementary Teachers
The third course in a three-course sequence in mathematics recommended by the
Committee on the Undergraduate Mathematics Program of the Mathematical
Association of America for prospective primary and elementary teachers.
Emphasis is upon constructions, congruence, parallelism, and similarity. Direct
and indirect methods of proof are studied, but the main approach is intuitive.
Prerequisite: MAT 131. Cr 3.
MAT 252 Calculus C
Multivariate calculus and vector calculus. Prerequisite: MAT 153
. Cr 4.
MAT 260 Technological Tools for the Mathematical
Sciences
MAT 260 is designed for students in mathematics and disciplines which utilize
mathematics. Specific topics will include the computer algebra system Mathematica
and the technical word-processing system T E X. Prerequisite: MAT
152. Cr 2.
MAT 264 Statistical Software Packages
This course will use statistical packages such as SAS and MINITAB to introduce
commonly used statistical methods in a non-theoretical manner. Particular
topics might include summary measures, calculation of probabilities associated
with various discrete and continuous distributions, confidence intervals and
hypothesis testing, analysis of variance, regression, and various
non-parametric methods. Some of these methods will be used to analyze real data
collected during previous faculty consulting projects. Prerequisite:
MAT 212 or consent of Department. Cr 2.
MAT 281 Introduction to Probability
This course will cover basic concepts of probability, including discrete and
continuous random variables and their distributions, moment generating
functions, and bivariate random variables and their distributions. Some basic
sampling distributions will also be discussed. Prerequisite: MAT
153 . Cr 3.
MAT 282 Statistical Inference
This course will examine various statistical methods and applications such as
point and interval estimation; methods of estimation including methods of
moments, maximum likelihood and least squares method; hypothesis testing;
simple and multiple linear regression; and one-factor and two-factor ANOVA.
Some statistical packages such as SAS or MINITAB will be used extensively
throughout the course. Prerequisite: MAT 281 or
permission of instructor. Cr 3.
MAT 290 Foundations of Mathematics
Selected topics in set theory, symbolic logic, and methods of proofs needed in
more advanced mathematics courses. Prerequisite: consent of the Department
chair. Cr 4.
MAT 292 Theory of Numbers
Basic course in number theory, including such topics as divisibility properties
of integers, prime numbers, congruences, multiplicative number theoretic
functions, and continued fractions. Prerequisite: COS 280
or MAT 290 . Cr 3.
MAT 295 Linear Algebra
An introduction to the theory of vector spaces and linear transformations.
Particular topics will include the study of systems of linear equations,
matrices, determinants, Euclidean vector spaces, inner product spaces, and
theory of diagonalization. Students will use a computer algebra system for
projects. Prerequisite: MAT 290 or COS 280.
Cr 4.
MAT 350 Differential Equations
A study of various methods for solving ordinary differential equations,
including series methods and Laplace transforms. The course also introduces
systems of linear differential equations, Fourier series, and boundary value
problems. Prerequisite: MAT 252 . Cr 4.
MAT 352 Real Analysis
Limits, continuity, differentiation and integration of functions of one or more
real variables, infinite series, uniform convergence, and other selected
topics. Prerequisites: MAT 252, and COS 280
or MAT 290. Cr 3.
MAT 355 Complex Analysis
A study of the complex number system and its applications: differentiation and
integration of complex valued functions, the Cauchy integral theorem and
formula, Taylor and Laurent series, singularities and residues, conformal
mappings. Prerequisite: MAT 252, and COS
280 or MAT 290 . Cr 3.
MAT 364 Numerical Analysis
A study of the theory and application of computational algorithms for
interpolation, equation solving, matrix methods, integration; error analysis.
Prerequisites: MAT 252, MAT 295,
COS 160 , and permission of instructor. Cr 3.
MAT 366 Deterministic Models in Operations Research
Formulation and analysis of mathematical models for the optimal solution of
decision making problems under certainty. Linear programming; the simplex
method, duality and sensitivity analysis. Network analysis: shortest paths,
minimal spanning tree, network flows. Introduction to nonlinear optimization:
convex programming, Kuhn-Tucker conditions. Applications to pricing,
allocation, production planning, transportation and scheduling problems.
Prerequisites: MAT 153 and MAT 295.
Cr 3.
MAT 370 Non-Euclidean Geometry
A development of one or more of the non-Euclidean geometries. Prerequisite:
COS 280 or MAT 290. Cr 3.
MAT 371 College Geometry
Selected topics from Euclidean geometry. Prerequisite: COS 280
or MAT 290 . Cr 3.
MAT 380 Probability and Statistics
This course explores concepts and techniques of collecting and analyzing
statistical data, examines some discrete and continuous probability models, and
introduces statistical inference, specifically, hypothesis testing and
confidence interval construction. Not for mathematics major credit.
Prerequisite: MAT 153 or COS 152 .
Cr 3.
MAT 383 System Modeling and Simulation
This course is designed to introduce the fundamental elements of successful
system modeling using simulation. Applications to computer, communications, and
inventory systems, as well as to traditional engineering problems, will be
discussed. Topics include model validation and verification, input/output
analysis, and the generation of various types of random data. Students are
required to conduct a simulation project in their area of interest using a
simulation language. Prerequisite: MAT 281 or
MAT 380. Cr 3.
MAT 384 NonParametric Methods
Tests of goodness of fit, Pearson's Chi-square, test for multinomial
populations, contingency tables, sign tests based on ranks, media test,
Mann-Whitney Test, Wilcoxon Test, Spearman's Rank Correlation Coefficient,
order statistics. Prerequisite: MAT 282 or MAT
380 . Cr 3.
MAT 386 Sampling Techniques
Sample random sampling, stratified random sampling, sampling for proportions,
estimation of sample size, systematic sampling, multistage sampling, regression
and ratio estimates, non-sampling error. Prerequisite: MAT 282
or MAT 380. Cr 3.
MAT 388 Statistical Quality Control
Some aspects of quality specifications and tolerances, control charts for
attributes and variables, certain inspection plans, plans by attributes and by
variables, simple, double, and sequential sampling plans. Prerequisite:
MAT 282 or MAT 380. Cr 3.
MAT 395 Abstract Algebra
Algebraic structures, such as groups, rings, integral domains, and fields.
Prerequisite: COS 280 or MAT 290 .
Cr 3.
MAT 460 Mathematical Modeling
An introduction to the process of formulating problems in mathematical terms,
solving the resulting mathematical model and interpreting the results and
evaluating the solutions. Examples will be chosen from the behavioral,
biological, and physical sciences. Prerequisites: junior or senior standing,
some elementary calculus including differentiation and integration, elementary
probability, and some computer programming experience. Cr 3.
MAT 461 Stochastic Models in Operations Research
This course applies probabilistic analysis to such nondeterministic models as
queueing models, inventory control models, and reliability models. Additional
topics include simulation, elements of dynamic programming, and Markov decision
analysis. Prerequisite: MAT 281 or MAT 380,
or permission of instructor. Cr 3.
MAT 482 Introduction to Time Series Analysis
The objectives and simple descriptive techniques of time series analysis are
presented using probability models, estimation in the time domain, forecasting,
Box-Jenkins methodology, and spectral analysis. Prerequisite: MAT
282 or MAT 380. Cr 3.
MAT 484 Design and Analysis of Experiments
This course is intended to acquaint students with such standard designs as
one-way, two-way, and higher-way layouts, Latin-square and orthogonal
Latinsquare designs, BIB designs, Youdeen square designs, random effects and
mixed effect models, nested designs, and split-plot designs. Prerequisites:
MAT 295 and either MAT 282 or MAT
380 , or permission of instructor. Cr 3.
MAT 490 Topology
An introduction to fundamental concepts in topology, including topological
spaces, mappings, convergence, separation and countability, compactness,
connectedness, metrization, and other selected topics. Prerequisites:
MAT 252 and COS 280 or MAT 290.
Cr 3.
MAT 492 Graph Theory and Combinatorics
This course is designed to acquaint students with some fundamental concepts and
results of graph theory and combinatorial mathematics. Applications will be
made to the behavioral, managerial, computer and social sciences. Prerequisite:
COS 280 or MAT 290 . Cr 3.
MAT 497 Independent Study in Mathematics
An opportunity for juniors and seniors who have demonstrated critical and
analytical capability to pursue a project independently, charting a course and
exploring an area of interest within their major field. Prerequisites: junior
or senior standing, permission of the instructor, and permission of the
Department chair. Cr 1-3.
MAT 498 Topics
Selected topics in advanced mathematics. Prerequisite: permission of
instructor. Cr 3.
MME 345 Teaching Mathematics in the Secondary
School
Critical study of programs and techniques for teaching and learning mathematics
in grades 7-12 for the slow, average, and advanced pupil, with the use of
instructional media. Prerequisite: EDU 100, EDU 200, HRD 200J, and 30 credit
hours towards a mathematics major, or permission of the instructor. Cr 3.
COS 160 Structured Problem Solving: C++
An introduction to the use of digital computers for problem solving, employing
the C++ programming language as a vehicle. Content includes elementary control
structures and data representation methods provided by C++ and the top-down
programming methodology. Course requirements include a substantial number of
programming projects. This course must be taken concurrently with
COS 170. Prerequisite: successful completion of the USM mathematics
proficiency requirement. Cr 3.
COS 170 Structured Programming Laboratory
Computational experiments will be designed to teach students how to construct
reliable software using C++. Topics to be covered include: Windows system,
conditional program flow, iteration, procedures and functions, and symbolic
debugging. This course must be taken concurrently with COS 160.
Cr 1.
COS 280 Discrete Mathematics
Concepts of modern algebra, set theory, Boolean algebra, elements of graph
theory, and their application to computer science. Prerequisite: MAT
107
. Cr 3.
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