Program Codes:
MAT.AS
Associate in Science Degree
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This program parallels the first two years of a baccalaureate degree program in mathematics. The mathematics major prepares students, upon graduation, to transfer to a four-year college or university to pursue professional careers requiring quantitative reasoning and analytical thinking. Traditional mathematics occupations consist of teaching positions in schools and colleges or research positions in universities or industry. Other related mathematics fields include statistics, survey and market research, operations research, computer systems design and programming, economics and finances, and robotics and aerodynamics. Careers in applied mathematics usually focus on developing mathematical models for technical and scientific data, whether in physics, chemistry, biology, engineering or medicine.
Below are required courses and recommended course groupings and sequences for program completion.
Courses may have prerequisite and corequisite requirements. Check course descriptions for details.
Presents fundamental ideas of calculus such as the derivative, integral and their applications. Topics include fundamentals of analytic geometry. The first course in a sequence of calculus courses intended for the student interested in mathematics, engineering and the natural, physical and social sciences. TI83/84 graphing calculator required.
A study of the basic principles and origins of life; the chemistry of living things; cell structure, function and reproduction; cell metabolic process including cellular respiration and photosynthesis; Mendelian genetics and modern genetics principles. Required for science transfer students in the biology option and biology pre-professional option and biotechnology.
A theoretical treatment of principles and laws underlying atomic structure, chemical reactions, enthalpy changes, bonding and states of matter integrated with descriptive material and quantitative calculations.
Introduction to the general chemistry laboratory: includes the conduct of inorganic reactions and general laboratory techniques. An appreciation and understanding of safety and environmental aspects of the general chemistry laboratory is developed. General chemistry laboratory techniques such as separation and titration and inorganic multistep synthesis are carried out. A variety of chemical reactions are performed, redox reactions and titrations are carried out, a stock solution and a series of dilute solutions are prepared from the stock, the enthalpy of reaction using Hess’ Law is determined, and the MW of a volatile liquid is determined using the Ideal Gas Law.
CHM 121
Through a variety of writing projects requiring competence in clear, correct, and effective English, students use inferential and critical skills in the process of composing documented essays. Extensive reading materials serve as structural models and as the bases for discussion and for the writing of essays involving response, analysis, and synthesis.
RDG-011 may be taken as a co-requisite if not previously completed with a grade of "C" or better.
Choose one course designated in the course descriptions as General Education Social Science (GE SS).
Physical/Health Education Elective
Topics include trigonometric and hyperbolic functions, areas, centroids, techniques of integration, parametric curves and vectors, indeterminant forms, Taylor's formula, infinite series and topics in analytic geometry. Recommended for students majoring in engineering, mathematics, computer science, social sciences and the science related areas of chemistry and physics. TI83/84 graphing calculator is required.
MAT-131 or equivalent
A survey of plant and animal taxonomy, anatomy and physiology; evolutionary theory and principles of ecology. Laboratory sessions include dissections.
A continuation of CHM 121, concentrating on properties of liquids, solids and solutions, kinetics, equilibrium, properties of acids and bases, acid-base and solubility equilibria, thermodynamics and electrochemistry.
CHM-121 with a grade of “C” or better
The laboratory course associated with CHM 122, General Chemistry II. The labs are related to the lecture topics and are meant to reinforce them. Computers are used for data acquisition and data handling using Microsoft EXCEL.
CHM 122
A grade of “C” or better in ENG-121
This course introduces students to a problem solving approach to computer applications through the use of spreadsheets, database, presentation manager, a programming language and Internet skills. It emphasizes Visual Basic and Microsoft Excel, in addition to surveying fundamental computer concepts and is designed for students who already possess a familiarity with computer applications. It is recommended for students planning to transfer to an upper division college that has a computer programming requirement in its computer literacy course. This course is suitable for liberal arts, science transfer and business transfer students who wish to transfer to a university and complete their bachelor,s degree.
Choose one course designated in the course descriptions as General Education Humanities (GE HUM).
Emphasis is on the study of analytic geometry and calculus in three dimensions. Topics include solid analytic geometry, partial derivatives, multiple integrals and topics in vector analysis such as Green's theorem, the divergence theorem, surface integrals and Stokes theorem. Recommended for students majoring in engineering, mathematics, computer science, social sciences and the science related fields of chemistry and physics.
MAT-132 or equivalent
Emphasizes theoretical models and basic physical principles. The course is precalculus based and uses some basic calculus in the development and applications of physical principles in a scientific environment. Students will use computers in the laboratory for developing programming skills for the analysis of experimental data. Topics include kinematics, dynamics, conservation of energy and momentum, waves, temperature and heat and thermodynamics. The first semester of a two-semester college-parallel sequence for liberal arts science and pre-professional students.
This course is to be taken in conjunction with General Physics I and is the first semester of a two semester laboratory university-parallel sequence for liberal arts science and pre-professional students. Students will make measurements and develop an understanding of the errors in those measurements and the final result. The importance of maintaining a laboratory notebook is emphasized as well as accurate and concise reporting of the data and results; data interpretation is also emphasized. The computer is used of data acquisition and analysis. Laboratory safety is also discussed.
An introduction to differential equations for students interested in mathematics, and the physical and social sciences. Covers first- and second-order differential equations and systems of first-order equations, both linear and non-linear. Quantitative and numerical analysis are emphasized along with analytic techniques, such as Laplace transform and matrix methods. Applications and modeling of real phenomena are discussed throughout the course.
MAT-233 or written permission of the department chairperson
Emphasizes theoretical models and basic physical principles. The course is precalculus-based and uses some basic calculus in the development and applications of physical principles in a scientific environment. Students will use computers in the laboratory for developing programming skills and for the analysis of experimental data. Topics include electro-statics, direct current circuits, electromagnetism, alternating currents, electromagnetic waves, geometrical and physical optics, quantum theory, atomic physics and nuclear physics. The second semester of two-semester college-parallel sequence for liberal arts science and pre-professional students.
This course is to be taken in conjunction with General Physics II and is the second semester of a two semester laboratory university-parallel sequence for liberal arts science and pre-professional students. Students will make measurements and develop an understanding of the errors in those measurements and the final result. The importance of maintaining a laboratory notebook is emphasized as well as accurate and concise reporting of the data and results; data interpretation is also emphasized. The computer is used of data acquisition and analysis. Laboratory safety is also discussed.
Choose one course designated in the course descriptions as General Education Humanities (GE HUM).
Choose one course designated in the course descriptions as General Education Social Science (GE SS).
Contact Name: Dr. Don Groninger, department chair
Contact Phone: 732.906.2585
Contact Email: DGroninger@middlesexcc.edu
Department Web: https://www.middlesexcc.edu/mathematics/
Students must demonstrate proficiency in elementary (MAT-013) and intermediate (MAT-014) algebra, as well as precalculus (MAT-129 or MAT-129A/MAT-129B). In addition, they must successfully complete all courses required by the College’s placement tests, and fulfill the science course prerequisites. The science courses of biology and chemistry require a high school laboratory course with a minimum grade of “C” or the equivalent developmental science courses (BIO-010, CHM-010).
The Statewide Transfer Agreement for New Jersey ensures that students who earn an A.A. or A.S. degree at a community college will have those credits fully transferable to a New Jersey public four-year institution, will have completed half of the credits required for a basic four-year degree and will have completed all of the lower division general education requirements. In addition, articulation agreements with private institutions may provide similar transfer provisions. Students should discuss the transfer process with an advisor.
Once students complete developmental coursework (if needed), the degree can be completed in two years of full-time study. They can shorten the amount of time by taking courses in the summer and winter sessions.