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Mathematics

Programs Offered

  • Bachelor of Science in Mathematics
  • Minor in Mathematics
  • Master of Science in Mathematics
  • Approved CCTC Mathematics Subject Matter Waiver Program

Mathematics can be pursued as a scholarly discipline of an especially elegant and creative art form or it can be treated as a valuable tool in an applied discipline. Our program addresses both needs. Students will be given a strong background in mathematics and statistics as well as a substantial amount of interdisciplinary applications in Physics, Biostatistics, Business, Computer and Information Sciences, Computer Imagining or Artificial Intelligence.

Careers [top]

The mathematics major will prepare students for teaching careers, studies in graduate programs (in pure mathematics, applied mathematics, mathematics education, or the mathematical sciences) or for employment in high-tech and bio-tech industries, where mathematics-trained professionals with interdisciplinary expertise (sciences and business) are increasingly sought after.

Program Learning Outcomes [top]

Students graduating from the Mathematics program will be able to:

  • demonstrate critical thinking, problem solving skills and ability to use advanced mathematical methods by identifying, evaluating, and classifying, analyzing, synthesizing, data and abstract ideas in various contexts and situations;
  • demonstrate the knowledge of current mathematical applications, computing practices and broad technology use in industry, science and education;
  • demonstrate ability to use modern software, abstract thinking, and mathematical practices connected to scientific and industrial problems, and demonstrate these skills that are currently used by technologies in society and education;
  • perform skills that enable them to evaluate, propose and convey novel solutions to scientific and business problems, etc.;
  • demonstrate cooperation skills by working effectively with others in interdisciplinary group-settings - both inside and outside the classroom; and
  • demonstrate a sense of exploration that enables students to pursue lifelong learning and currency in their careers in mathematics, statistics, education, high-tech and bi-tech industries.

Faculty [top]

Ivona Grzegorczyk, Ph.D.
Professor of Mathematics
Chair, Mathematics Program
Academic Advisor for Mathematics and Single Subject Credential in Mathematics
Bell Tower West, Room 2275
805-437-8868
ivona.grze@csuci.edu

Jesse Elliott, Ph.D.
Assistant Professor of Mathematics
Bell Tower West, Room 2215
805-437-2768
jesse.elliott @csuci.edu

Jorge Garcia, Ph.D.
Assistant Professor of Mathematics
Developmental Mathematics Coordinator
Bell Tower West, Room 2219
805-437-2769
jorge.garcia @csuci.edu

Cindy Wyels, Ph.D.
Associate Professor of Mathematics
MS in Mathematics Graduate Program Director
Bell Tower West, Room 1191
805-437-3260
cynthia.wyels@csuci.edu

Contact Information [top]

Ìý´Ç°ù math@csuci.edu

ÌýÌý

Requirements for the Bachelor of Science in Mathematics (120 units) [top]

Lower Division Requirements (34-35 units)

  • MATH 150 Calculus I (4)
  • MATH 151 Calculus II (4)
  • MATH 230 Logic and Mathematical Reasoning (3)
  • MATH 250 Calculus III (3)
  • MATH 240 Linear Algebra (3)
  • COMP 105 Computer Programming Introduction (4) or
  • COMP 150 Object Oriented Programming (4)
  • Additional Computer Science course, 102 or above (2-4)
  • PHYS 200 General Physics I (4)
  • either PHYS 201 and one additional science course or 2 semester science sequence in sciences (7-8)

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Upper Division Requirements (20 units)

  • MATH 300 Discrete Mathematics (3)
  • MATH 350 Differential Equations and Dynamical Systems (3)
  • MATH 331 History of Mathematics (3)
  • MATH 352 Probability and Statistics (3)
  • MATH 351 Real Analysis (3)
  • MATH 451 Complex Analysis (3)
  • MATH 499 Senior Colloquium (1) (twice)

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Emphasis (6-9 units)

By the sophomore year the student should decide on one of the emphases listed in the Proposed Plan of Study (below). Students planning on teaching mathematics have to choose Education Emphasis to meet the Single Subject Matter Preparation requirements.

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Electives in MajorÌý(9-13 units)

Note:
  1. ÌýCourses used for the emphases cannot be counted as elective.
  2. ÌýStudents planning on teaching math have to choose MATH 492 for field experience requirement. Other courses recommended for teaching careers are marked with T.
  • MATH 318 Mathematics for Secondary School Teachers (3 - T)
  • MATH 330 Mathematics and Fine Arts (3 - T)
  • MATH 354 Analysis of Algorithms (3)
  • MATH 393 Abstract Algebra (3 -T)
  • MATH 430 Research Design and Data Analysis (3)
  • MATH 429 Operations Research (3)
  • MATH 450 Partial Differential Equations and Mathematical Physics (3)
  • MATH 448 Scientific Computing (3)
  • MATH 480 Differential and Riemannian Geometry (3)
  • MATH 482 Number Theory and Cryptography (3 - T)
  • MATH 484 Algebraic Geometry and Coding Theory (3)
  • MATH/PHYS 345 Digital Image Processing (3)
  • MATH/PHYSÌý 445 Image Analysis and Pattern Recognition (3)
  • MATH/COMP 452 Computational Bioinformatics (3)
  • MATH 490 Topics in Mathematics (3)
  • MATH 492 Internship (3 - T - required)
  • MATH 494 Independent Study (3)
  • MATH 497 Directed Study (3)
  • MATH 499 Senior Colloquium (1)

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Required Supporting and other GE Courses

  • Elective Courses (16)
  • General Education and Title V (34)

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Required Supporting and Other GE Courses

  • General Education and American Institutions Requirement (34)
  • Elective Courses (16)

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Proposed Course of Study

Freshman Year (30-32 units)

  • MATH 150 Calculus I (4, G.E. B3)
  • MATH 151 Calculus II (4)
  • MATH 230 Logic and Mathematical Reasoning (3, G.E. A3)
  • COMP 105 Computer Programming Introduction (3-4, G.E. B4) (3)
    or
    COMP 150 Object Oriented Programming
  • ENG 102 Stretch Composition I
    and
    ENG 103 Stretch Composition II (6)
    or
    ENG 105 Composition and Rhetoric (3, G.E. A2)
  • PHYS 200 General Physics I (4, G.E. B2)
  • Computer Science Course (2-4)
  • G.E. Section A, C, D, or E (3)

Sophomore Year (22-23 Units)

  • MATH 240 Linear Algebra (3)
  • MATH 250 Calculus III (3)
  • MATH 300 Discrete Mathematics (3)
  • MATH 350 Differential Equations and Dynamical Systems (3)

Select one interdisciplinary G.E. (3)

Recommended:

COMP 447 Societal Issues in Computing (3)
COMP 449 Human Computer Interactions (3)
PHYS 434 Biomedical Imaging (3)
Select either PHYS 201 and one additional science course or 2 semester science sequence in sciences (7-8, G.E. B1 and B2)

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Emphasis

By the sophomore year, in order to plan their electives, students should decide on one of the following emphases and take all courses listed in the section.

Biomathematics (6)

Students selecting this emphasis should take BIOL 201.
  • MATH 430 Research design and Data Analysis (3, G.E. B1,B3, Interdisciplinary)
  • COMP 452 Computational Bioinformatics (4)

Computer Science (9)

Students selecting this emphasis should take COMP 150 and COMP 151 for the computer science requirements
  • MATH 454 Analysis of Algorithms (3)
  • MATH 488 Scientific Computing (3, G.E. B4,B3, Interdisciplinary))
  • COMP 350 Software Engineering (3)

Physics (6)

Students selecting this emphasis should take PHYS 200 and 201(8) as the science sequence.
  • MATH 350 Partial Differential Equations and Mathematical Physics (3)
  • Upper division Physics course (3)
Applied Physics (6)
Students selecting this emphasis should take PHYS 200 and 201(8) as the science sequence.
  • COMP/PHYS 345 Digital Image Processing (3)
  • COMP/PHYSÌý445 Image Analysis and Pattern Recognition (3)

Actuarial Sciences/Economics (9)

  • MATH 429 Operations Research (3)
  • ECON 300 Fundamentals of Economics (3, G.E. D)
  • ECON 486 Introduction to Econometrics (3)

Business Management (9)

  • MATH 429 Operations Research (3)
  • Upper Division Management Course (3)
  • Cognitive Science (9):
  • MATH 430 Research Design and Data Analysis (3)
  • ECON 300 Fundamentals of Economics (3, G.E.D)
  • PSY 210 Learning, Cognition and Development
  • Upper Division Cognitive Psychology Course (3)

Education (9)

  • MATH 318 Mathematics for Secondary School Teachers (3)
  • MATH 393 Abstract Algebra (3)
  • EDUC 512 Equity, Diversity and Foundation of Schooling

Applied Mathematics

  • MATH 429 Operations Research (3)
  • MATH 448 Scientific Computing (3, G.E. B3, B4, Interdisciplinary)
  • MATH 450 Partial Differential Equations and Mathematical Physics (3)

Digital Design

  • MATH 393 Abstract Algebra (3)
  • ART 108 Visual Technologies (3)
  • ART 312 or 314 Digital Media Art
Choice of other emphases or individualized emphasisis possible upon approval of the mathematics advisor.

Junior Year (15-18 Units + G.E)

  • MATH 331 History of Mathematics (3, G.E. B3, D, Interdisciplinary)
  • MATH 351 Real Analysis (3)
  • MATH 352 Probability and Statistics (3)
  • Choose one of the groups from the Emphasis Courseslisted above.

Senior Year (14-15 Units+ G.E.) [top]

  • MATH 451 Complex Analysis (3)
  • MATH 499 Senior Colloquium (1) Fall
  • MATH 499 Senior Colloquium (1) Spring
  • Choose 3 or more Math Electives (9-12)

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Total Requirements for the Bachelor of Science in Mathematics Degree(120 units) [top]

  • Lower Division Required Major Courses (34-35)
  • Upper Division Required Major Courses (20)
  • Upper Division Elective & Emphasis Major Courses (15-19)
  • Electives (16)
  • General Education Included in Major Requirements (18)
  • General Education and American Institutions Requirement (34)

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Requirements for the Minor in Mathematics(20 units) [top]

  • MATH 150 Calculus I (4)
  • MATH 151 Calculus II (4)
  • MATH 300 Discrete Math (3)

In addition, students should select three upper division courses (9 units) from the Mathematics program approved by the advisor.

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Master of Science in Mathematics [top]

(Pending approval from the Chancellor's Office and offered through º£½ÇÉçÇø Extended Education Program)

Our MS in Mathematics program is interdisciplinary and innovative in nature, offers flexible schedule with highly qualified faculty. It is designed to address the global need for people with advanced mathematical, computational, and computer skills throughout the industry, high-tech, and educational systems. Students will be given a strong background in mathematics, computer software, as well as skills to conduct an independent applied research or develop independent projects. The program will stress interdisciplinary applications, for example in Actuarial Sciences, Cryptography, Security, Image Recognition, Artificial Intelligence, and Mathematics Education. Students' specializations depend on the final project/ thesis and the electives chosen under the supervision of Mathematics advisor. Individual study plan can be design to meet entry requirements for Ph.D. programs in Mathematical Sciences.

Admission Requirements

  1. Application. Application to both the University and the Mathematics Program. Forms are available at the Extended Education Office and on-line at .
  2. Recommendation. At least two letters of recommendations from academia or professional supervisors.
  3. Subject Matter Preparation. Applicants are expected to hold BS degree in mathematics. However students with other degrees (or equivalent coursework) maybe considered and admitted conditionally (subject to completing relevant undergraduate mathematics courses).
  4. GPA of 3.0 in Mathematical Sciences. If applicant does not have the required GPA, conditional admission maybe available on a limited bases.
  5. GRE (general and mathematics) scores are recommended, but not required.

Faculty and Contact Information

Cindy Wyels, Ph.D.
Associate Professor of Mathematics
MS in Mathematics Graduate Program Director
Bell Tower West, Room 1191
805-437-3260
cynthia.wyels@csuci.eduÌý

Ivona Grzegorczyk, Ph.D.
Professor of Mathematics and
Chair, Mathematics Program
Bell Tower West, Room 2275
805-437-8868
ivona.grze@csuci.edu

Ìý

Requirements for the Master of Science in Mathematics (32 units) [top]

Core Courses (11 Units)

Choose 3 courses from the following list:
  • MATH 510 Probabilistic Methods And Measure Theory (3)
  • MATH 511 Functional Analysis (3)
  • COMP 510 Algorithms (3)
  • COMP 569 Artificial Intelligence (3)
  • PHYS 510 Advanced Image Analysis Techniques (3)
And required two units of:
  • Math 599 Graduate Seminar (1)

Electives (15 Units)*

Choose 5 Electives from the following list (at least 3 courses in mathematics):
  • MATH 511 Functional Analysis (3)
  • MATH 513 Advanced Algebra (3)
  • MATH 555 Actuarial Sciences (3)
  • MATH 565 Research in Mathematics Education (3)
  • MATH/COMP 581 Mathematical Methods in Artificial Intelligence (3)
  • MATH 582 Number Theory and Cryptography (3)
  • MATH 584 Algebraic Geometry and Coding Theory (3)
  • MATH 587 Markov Chains and Markov Processes (3)
  • MATH 588 Stochastic Analysis (3)
  • PHYS 546 Pattern Recognition (3)
  • COMP 520 Advanced Database Systems (3)
  • COMP 524 Security (3)
  • COMP 529 Network Computing (3)
  • COMP 549 Human-Computer Interaction (3)
  • COMP 550 Object-Oriented Software Engineering (3)
  • COMP 569 Artificial Intelligence (3)
  • COMP 571 Biologically Inspired Computing (3)
  • COMP 572 Neural Networks (3)
  • COMP 575 Multi-Agent Systems (3)
  • COMP 578 Data Mining (3)

*other graduate or junior/senior courses may be included with advisors approval.

Project or Master Thesis Emphasis (6 units)

MATH 597 Master Thesis
or
MATH 598 Master Project

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