This course is a study of the fundamental topics in advanced algebra with emphasis on applications, the understanding of the function concept and manipulative skills. Major topics include operations on algebraic expressions and complex numbers, solving polynomial equations and inequalities, absolute value equations and inequalities and rational equations and inequalities, applications, functions, exponents and logarithms, graphs of polynomial, exponential and logarithmic functions and systems of equations and inequalities. The use of graphing calculators will be incorporated throughout the course. This course satisfies the General Education State Core Mathematics requirement for degree seeking students.
This course is a calculus preparatory course in trigonometry with emphasis upon functions. The topics include angular measure, right triangle and unit circle trigonometry, trigonometric (circular) and inverse trigonometric functions and their graphs, trigonometric identities, conditional trigonometric equations, solution of right and oblique triangles, vectors, complex numbers in trigonometric form, applications, polar coordinates and graphs and parametric equations and graphs. The use of graphing calculators will be incorporated throughout the course.
This is a course in precalculus algebra intended for the student who is planning to take trigonometry and the calculus sequence. Major topics include rational and other algebraic functions and their graphs, piecewise-defined functions, a review of exponential and logarithmic functions, conic sections, matrices and determinants, sequences and series, Mathematical Induction, the Binomial Theorem and applications. The use of graphing calculators will be incorporated throughout the course. This course may be taken concurrently with MAC 1114, Trigonometry.
This is a course in precalculus algebra and trigonometry intended for the student who is planning to take the calculus sequence. This course condenses into a five-credit hour format all topics of Precalculus Algebra (MAC 1140) and Trigonometry (MAC 1114). Algebra topics include the following: polynomial, rational and other algebraic functions and their graphs, piecewise-defined functions, a review of exponential and logarithmic functions, conic sections, matrices and determinants, sequences and series, Mathematical Induction, the Binomial Theorem and applications. Trigonometry topics include angular measure, right triangle and unit circle trigonometry, trigonometric (circular) and inverse trigonometric functions and their graphs, trigonometric identities, conditional trigonometric equations, solution of right and oblique triangles, vectors, complex numbers in trigonometric form, applications, polar coordinates and graphs and parametric equations and graphs. The use of graphing calculators will be incorporated throughout the course. Successful completion of a high school course containing trigonometric topics and/or concepts is recommended.
This course is a study of Differential and Integral Calculus of algebraic, exponential and logarithmic functions with applications to business analysis. It is designed to provide the student of business and social sciences a course in applied calculus. This course is not intended for the student who is required to complete the calculus series.
This is a first course in analytic geometry and the theory and application of calculus. Selected topics include a review of functions, limits and continuity, the derivative, differentiation of algebraic and transcendental functions and their inverses, the Mean Value and Intermediate Value Theorems, extrema and graph sketching, area and the definite integral, anti-differentiation and the Fundamental Theorem of Calculus and integration of transcendental functions and their inverses. A graphing calculator will be used throughout the course. Students should ask the instructor which calculator will be used. This course satisfies the General Education State Core Mathematics requirement for degree seeking students.
This is a first course in analytic geometry and the theory and application of calculus. Selected topics include a review of functions, limits and continuity, the derivative, differentiation of algebraic and transcendental functions and their inverses, the Mean Value and Intermediate Value Theorems, extrema and graph sketching, area and the definite integral, anti-differentiation and the Fundamental Theorem of Calculus and integration of transcendental functions and their inverses. The graphing calculator will be used throughout the course. This course satisfies the General Education State Core Mathematics requirement for degree seeking students.
This course is a continuation of MAC 2311. Selected topics include conics, translation and rotation of axes, techniques of integration, arc length and other applications of the definite integral, polar coordinates, indeterminate forms and improper integrals, infinite sequences and series and Taylor's Formula. A graphing calculator will be used throughout the course. Students should ask the instructor which calculator will be used.
The following topics will be covered in this course: sets and Venn diagrams, logic, inductive and deductive reasoning, counting principles, permutations and combinations, probability, descriptive statistics and geometry. This course satisfies the General Education State Core Mathematics requirement for degree seeking students. It is recommended that students without college-level math credits have completed a secondary-level course in Geometry, Algebra 2, Precalculus, Calculus, or Math for College Liberal Arts with a grade of ‘B’ or higher before taking this course.
This course provides an opportunity for students to see mathematics used in ways not seen in traditional mathematics courses. Topics are selected from the following: financial mathematics, numbers and number systems, elementary number theory and graph theory. Additional topics may be included at the discretion of the instructor. History of mathematics, critical thinking skills, problem-solving techniques and the appropriate use of technology will be used throughout the course. This course satisfies the General Education State Core Mathematics requirement for degree seeking students. It is recommended that students without college-level math credits have completed a secondary-level course in Geometry, Algebra 2, Precalculus, Calculus, or Math for College Liberal Arts with a grade of ‘B’ or higher before taking this course.
This course introduces descriptive statistics, probability and probability distributions, estimation, confidence intervals, hypothesis testing, two-sample inferences, correlation and regression and nonparametric tests. This course is a first course in statistical methods for those students entering a science or business-related field. This course satisfies the General Education State Core Mathematics requirement for degree seeking students. It is recommended that students without college-level math credits have completed a secondary-level course in Geometry, Algebra 2, Precalculus, Calculus, or Math for College Statistics with a grade of ‘B’ or higher before taking this course.
This Honors course introduces descriptive statistics, probability and probability distributions, estimation, confidence intervals, hypothesis testing, two-sample inferences, correlation and regression and nonparametric tests. This course is a first course in statistical methods and involves Honors students in projects and development of portfolios. Honors level content. Permission required from Honors director. This course satisfies the General Education State Core Mathematics requirement for degree seeking students. It is recommended that students without college-level math credits have completed a secondary-level course in Geometry, Algebra 2, Precalculus, Calculus, or Math for College Statistics with a grade of ‘B’ or higher before taking this course.
