Basic Mathematics (0 credit)
Prerequisite: Must have failed Part 2 of Competency Test with a score below 9.
A course which provides the necessary mathematical background needed to pass the algebra section of the College Proficiency Examination in mathematics; covers polynomials, rational expressions, exponents and roots, solving equations and inequalities.
MAT 098
Basic Mathematics (0 credit)
Prerequisite: Must have failed Part 2 of Competency Test with score 9-13.
This is a fully computer-based instruction presentation. The instructor interacts with the program by evaluating pretests and placing the student appropriately in the course continuum. Primarily the computer program with instructor intervention presents information. Students are encouraged to complete the entire course of study, but may exit the course when they achieve a score at or above the minimum competency exam. One hour per week attendance is required.
MAT 103
Introduction to Contemporary Mathematics(3 credits)
Prerequisite: 3 years of Regents high school mathematics or equivalent.
A focus on ceontemporary mathematics, the methods used, and applications to the wide variety of problems that arise in a rapidly changing society. These problems are solved by contemporary mathematical techniques..
MAT 107
Casino Gambling(3 credits)
Prerequisite: 3 years of Regents high school mathematics or equivalent.
An intensive encounter with the phenomenon of chance and the theory of probability, which governs it through a critical examination of various casino gambling games including roulette, craps, and blackjack.
MAT 110
Intermediate College Algebra and Trigonometry (3 credits)
Prerequisite: 3 years of Regents high school mathematics or equivalent.
A course which provides concepts and skills in intermediate algebra
and right triangle trigonometry.
MAT
114
Functions and Modeling (3 credits)
Prerequisite: 3 years high school mathematics or equivalent.
Describe and explore real-world functions, data and phenomena
through graphic, numeric, symbolic, and verbal representations. Use
elementary functions (linear, polynomial, power, and exponential) to
investigate and analyze applied problems (supported by the use of
appropriate technology)
MAT 119
Finite Mathematics (3 credits)
Prerequisite: MAT 110 or 3 years of Regents high school math.
Logic, sets, partitions, probability, vectors, matrices; linear programming.
MAT 121
Elementary Mathematics From an Advanced Standpoint I(3 credits)
Prerequisite: 3 years of Regents high school math or equivalent.
Problem solving, elementary set theory, the whole numbers, the integers, the rational numbers, introductory probability, beginning geometry, number theory, using computers.
MAT 122
Elementary Mathematics From an Advanced Standpoint II(3 credits)
Prerequisite: MAT 121.
The real number system, logic, relations, and functions, probability and statistics, geometry, LOGO.
MAT 124
Pre-Calculus Mathematics(3 credits)
Prerequisite: 4 years of Regents high school math.
Numbers, inequalities, functions graphing, polynomials, rational functions, circular functions, trigonometric identities, induction sequences. A pre-calculus course in algebra and trigonometry designed primarily for those who have had eleventh-year high school mathematics. No credit given to students who have completed a college calculus course.
MAT 126
Calculus(3 credits)
Prerequisite: MAT 110 or 3 years of Regents high school math.
Functions; limits; continuity; techniques for differentiation and applications; summations; anti-derivatives; definite integrals; fundamental theorem of calculus, techniques of integration and applications. Credit may not be earned for both MAT 126 and MAT 161 or equivalents.
MAT 127
Calculus Of Several Variables(3 credits)
Prerequisite: MAT 126
A study of the calculus of several variables with emphasis on applications to the physical and social sciences. Vectors; conic sections, surface in 3-space, functions of several variables and their graphs; partial derivatives; lines and planes in 3-space; tangent planes and normal lines and their applications; the differential and its applications; the directional derivative and its applications; introduction to differential equations and application. Credit may not be earned for both MAT 127 and 162 or equivalents.
Calculus I (4 credits)
Prerequisite: MAT 124 with a minimum grade of C, or equivalent.
Corequisite: MAT 163
Calculus II(3 credits)
Prerequisite: MAT 161
Co-requisite: MAT 164
The definite integral, the techniques of integration, logarithmic and exponential functions. Applications studied through algorithmic techniques or computer usage. Credit may not be earned for both MAT 127 and MAT 162 or equivalent.
Using Technology to Explore Calculus I (1 credit)
Prerequisite: Students must be concurrently enrolled in, or have successfully completed MAT 161 or its equivalent.
Weekly class session in which students use a programmable graphing utility to explore the mathematics they are learning in MAT 161.
Using Technology to Explore Calculus II(1 credit)
Prerequisite: Students must be concurrently enrolled in, or have successfully completed MAT 162 or its equivalent.
Weekly class session in which students use programmable graphing utilities and Computer Algebra Systems to explore the mathematics they are learning in MAT 162.
MAT 183
Problem Solving In Mathematics (3 credits)
Prerequisiste: 4 years of Regents high school math.
An introduction to the basic techniques of problem solving, creative problem solving, the methods of Polya, Wickelgren, and others, and applications to the areas of algebra, geometry, analysis, and recreational mathematics. The emphasis is on process rather than on content.
Introduction to Linear Algebra (3 credits)
Prerequisite: MAT 126 or MAT 161.
Vector and vector spaces; linear dependence, basis and dimension;
matrices and determinants; linear systems; linear transformations;
eigenvectors and invariant subspaces.
MAT 241
Computer Mathematics I (3 Credits)
Prerequisite: MAT 161 and MAT 163 or equivalent, or instructor’s
permission
Calculus III (3 Credits)
Prerequisite: MAT 162.
Co-requisite: MAT 264
Vectors, partial differentiation, multiple integrals, and infinite series. Applications studied through algorithmic techniques and/or computer usage.
Using Technology to Explore Calculus III (1 credit)
Prerequisite: MAT 164; Students must be concurrently enrolled in, or have successfully completed MAT 263 or its equivalent.
Weekly class session in which students use programmable graphing utilities and Computer Algebra Systems to explore the mathematics they are learning in MAT 263.
Discrete Mathematics (3 credits)
Prerequisite: MAT 126 or MAT 161.
This course is an introduction to the non-continuous side of mathematics. The student will gain skills in proof, logic, sets, relations, functions, and counting methods.
Fundamentals of Abstract Algebra (3 credits)
Prerequisite: MAT 202 and MAT 270
An introduction to the fundamental concepts of abstract algebra, sets, mappings, binary operations, relations, and to algebraic structures of groups, rings, fields and applications.
Abstract Algebra II (3 credits)
Prerequisite: MAT 301
Quotient fields of integral domains, polynomial rings. Euclidean domains, ideals, and factorization. Finite fields, extension fields, splitting fields. Applications to geometric constructions and solvability, applications chosen from contemporary areas of coding theory, block designs, etc.
MAT 304
Games and Linear Programming (3 credits)
Prerequisite: 3 years of Regents high school math.
Elementary techniques for finding optimal choices among games strategies and in linear programming problems using the fundamental minimax theorem and the simplex method. Application in such areas as business, industry, economics, social sciences, and behavioral sciences. Not open to mathematics majors.
MAT 306
Problem-Solving with Computers (3 credits)
Prerequisite: 3 years of Regents high school math.
An introduction to the mathematical uses of computers in today's society. Background; typical uses; writing programs to solve problems in number theory, geometry, finance and algebra; mathematical games; sorting. Does not satisfy Mathematics major requirements.
MAT 309
Discrete Mathematics II
(3 credits)
Automata, modules, group codes, linear machines, polynomial rings,
cyclic codes, minimum polynomials, context-free gramúmers, tree
automata, polish notation, pushdown automata. Prerequisites: MAT 301
and MAT 270
MAT 311
Elementary Probability and Statistics (3 credits)
Prerequisite: MAT 110 or 3 years of Regents high school math.
Empirical frequency distributions; measures of central tendency and dispersion; theory of probability of a finite sample space; application of statistical distributions. Does not satisfy Mathematics major requirements.
Differential Equations (3 credits)
Prerequisite: MAT 263 and MAT 202, or permission of instructor.
Preliminary ideas of order, degree, and solutions; formation of differential equations; differential equations of first order linear equations with constant coefficients; special high order equations; simultaneous equations; linear equations of the second order, series solutions.
Intermediate Differential Equations (3 credits)
Prerequisite: MAT 315.
Laokacer transform; inverse Laplace transform and applications; partial differential equations; Fourier series; boundary value problems; transform methods application.
Modern Geometry (3 credits)
Prerequisite: MAT 270
Euclidean constructions; theorems of Menelaus and Ceva; cross ratio; harmonic points; orthogonal circles; isometrics and similarites in the plane; introduction of projective geometry.
Elementary Theory of Numbers (3 credits)
Prerequisite: MAT 124 or 4 years of high school math.
(MAT 270 is recommended.)
Divisibility, Euclid's Algorithm; numbers; prime factorization theorem; Euler's phi-function (totient); Diophantine analysis; congruence; theorems of Fermat, Euler, and Wilson.
Computer Mathematics II (3 credits)
Prerequisite: MAT 164, MAT 241 and Mat 270 or instructor's
permission.
Structured programming, verification of program validity, data structures, combinatorial problems, flow network algorithms, random number generators, simulation of random and nonrandom processes.
Applied Networks (3 credits)
Prerequisite: MAT 202 and MAT 270.
Introduction to network and graph theoretic concepts. Consider properties with application in computational mathematics, social science decision making and physical science.
Probability (3 credits)
Prerequisite: MAT 270 and (MAT 127 or MAT 162).
Probability models, discrete and continuous random variables, sampling distributions, estimation, tests of hypothesis and simple linear regression.
Topics In Mathematical Statistics(3 credits)
Prerequisite: MAT 381 and MAT 263.
Sampling distributions; the central limit theorem; point and
interval
estimation; tests of hypotheses.
MAT 383
Applied
Statistics (3
credits)
Prerequisite: MAT 382 or MAT 325 or (MAT 311 and MAT 381)
Categorical data analysis; simple linear regression and correlation;
multiple linear regression; experimental design models (one, two or
more factors); nonparametric statistics.
MAT 390
Introduction
to Operations Research
Prerequisites: MAT 202 and MAT 270
Optimization of real-world problems modeled by linear objective
functions subject to systems of linear inequalities and solved by
either the two-phase revised simplex method or by the network simplex
method. Mathematics behind these methods. Applications in diverse areas
such as business management, industry, economics, finance, game theory,
geometry, and networks.
Introduction To Turing Machines(3 credits)
Prerequisite: MAT 270 and either MAT 301 or MAT 351
An introduction to topics in finite automata and Turing machines; universal Turing machines; topics in abstract computability theory, and general unsolvability theory.
Applications Of Linear Algebra(3 credits)
Prerequisite: MAT 202, MAT 263 and MAT 264 .
Eigenvalue problems, diagonalizing matrices, Jordan Canonical form, Linear Programming, Simplex method, game theory, applications in areas such as business, industry, economics, social sciences, and behavioral sciences.
Complex Variables(3 credits)
Prerequisite: MAT 263 and MAT 270
Topics selected from the theory of functions of a real and/or complex variable; axioms of real numbers, geometry of complex numbers, point set topology differentiation, analytic functions, Cauchy-Riemann equations, power series, integration, special functions, power series, integration, special functions, and the calculus of residues.
Introduction To Real Analysis I (3 credits)
Prerequisite: MAT 263 and MAT 270
A rigorous treatment of elementary real analysis including: topology and Cartesian spaces, Heine-Borel theorem, sequences of numbers, sequences of functions, continuous functions, limits of functions, differentiation, mean-value theorem, Weierstrauss approximation theorem.
Introduction To Real Analysis II (3 credits)
Prerequisite: MAT 417 or equivalent
A continuation of MAT 417 with topics to be chosen from:
Reimann-Stielties integration, improper integrals, infinite series,
series of functions, partial differentiation, Jacobians, implicit
function, multiple integrals, and Fubini's Theorem.
Mathematical Logic
(3 credits)
Prerequisites: MAT 202 and MAT 270
Validity, deducibility, and completeness in propositional and
predicate logics; first order formal theories and informal theories in
the context of
set theory.
Numerical Analysis(3 credits)
Prerequisite: MAT 202, MAT 263 and MAT 264.
Fundamentals; finite differences; difference tables; tabulation of polynomials; difference operators; linear interpolation; classical polynomial formulas; inverse interpolation; Lagrange's formulas; numerical integration; Gauss' formula difference equations.
Introduction To Topology(3 credits)
Prerequisite: MAT 263 and MAT 270
An introduction to topology -- sets and functions; metric spaces; topological spaces; connectedness; compactness; separation.
Seminar(3 credits)
Prerequisite: Senior mathematics major or permission of instructor.
Investigation of some topics of current interest to mathematicians,
such as group theory, game theory, differential geometry, measure
theory, sampling theory, etc.. Emphasis is on oral presentations by the
students and discussion.
Capstone
Research in Mathematics (3
credits)
Prerequisites: MAT301, MAT417, and senior status; or instructor
permission.
Independent research under the direction of the instructor.
Composition of a research paper and presentation of results at a
seminar for faculty and students.
Project (3 credits)
Independent Study (3 credits)
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