Mathematical Science (MS) - Industrial Mathematics (2024)

Program at a Glance

Program
Master
College(s)
College of Sciences
Department(s)
Mathematics
  • In State Tuition
  • Out of State Tuition

$369.65 per credit hour

$1,194.05 per credit hour

Learn more about the cost to attend UCF.

Mathematical Science (MS) - Industrial Mathematics (1)

The Industrial Mathematics track in the Mathematical Science MS program prepares graduate students to pursue careers in industry by providing them with high quality professional training in branches of mathematics valuable to high-technology industries. This track has three components: training in the necessary mathematics to pursue a career in industrial mathematics, professional training to prepare for the environment of the industrial workplace, and a required experiential component.

Total Credit Hours Required: 30 Credit Hours Minimum beyond the Bachelor's Degree

Application Deadlines

  • Domestic
  • International

Spring
December 1

Fall
July 1

Spring
July 1

Fall
January 15

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The Industrial Mathematics track in the Mathematical Science MS program prepares graduate students to pursue careers in industry by providing them with high quality professional training in branches of mathematics valuable to high-technology industries. This track has three components: training in the necessary mathematics to pursue a career in industrial mathematics, professional training to prepare for the environment of the industrial workplace, and a required experiential component.

Total Credit Hours Required: 30 Credit Hours Minimum beyond the Bachelor's Degree

Track Prerequisites

The following courses are required as prerequisites to this track: Calculus with Analytic Geometry I, II, and III; Differential Equations; Linear and Matrix Algebra (or a course equivalent); proficiency in a computer language (C or MatLab); Advanced Calculus and Statistics.

A working knowledge of undergraduate calculus, differential equations, linear algebra (or matrix theory), and maturity in the language of advanced calculus (at the level of MAA 4226).

Degree Requirements

Required Courses

12 Total Credits

  • Complete the following:
    • MAA5210 - Topics in Advanced Calculus (3)
    • MAS5145 - Advanced Linear Algebra and Matrix Theory (3)
    • MAT5712 - Scientific Computing (3)
    • MAP6385 - Applied Numerical Mathematics (3)

Mathematics Restricted Electives

12 Total Credits

  • Complete at least 4 of the following:
    • MAA6508 - Hilbert Spaces with Applications (3)
    • MAD5205 - Graph Theory I (3)
    • MAP5117 - Mathematical Modeling (3)
    • MAP5336 - Ordinary Differential Equations and Applications (3)
    • MAP6111 - Mathematical Statistics (3)
    • MAP6197 - Mathematical Introduction to Deep Learning (3)
    • MAP6195 - Mathematical Foundations for Massive Data Modeling and Analysis (3)
    • MAP6207 - Optimization Theory (3)
    • MAP6356 - Partial Differential Equations (3)

Professional Development Restricted Electives and Internship

6 Total Credits

  • Complete 1 of the following
      Option 1
    • Complete at least 2 of the following:
      • ENT5016 - New Venture Design (3)
      • ENT6617 - Innovation and Entrepreneurship Strategy (3)
      • ENT5946 - Small Business Consulting (3)
      • MAN6245 - Organizational Behavior and Development (3)
    • Option 2
    • Complete all of the following
      • Complete at least 1 of the following:
        • ENT5016 - New Venture Design (3)
        • ENT6617 - Innovation and Entrepreneurship Strategy (3)
        • ENT5946 - Small Business Consulting (3)
        • MAN6245 - Organizational Behavior and Development (3)
      • Earn at least 3 credits from the following types of courses: An industrial internship (MAP 6946) with satisfactory completion
    • Option 3
    • Complete all of the following
      • Complete at least 1 of the following:
        • ENT5016 - New Venture Design (3)
        • ENT6617 - Innovation and Entrepreneurship Strategy (3)
        • ENT5946 - Small Business Consulting (3)
        • MAN6245 - Organizational Behavior and Development (3)
      • Complete at least 1 of the following:
        • MAP5117 - Mathematical Modeling (3)
        • MAP6197 - Mathematical Introduction to Deep Learning (3)
        • MAP6195 - Mathematical Foundations for Massive Data Modeling and Analysis (3)

Grand Total Credits: 30

Application Requirements

Financial Information

Graduate students may receive financial assistance through fellowships, assistantships, tuition support, or loans. For more information, see the College of Graduate Studies Funding website, which describes the types of financial assistance available at UCF and provides general guidance in planning your graduate finances. The Financial Information section of the Graduate Catalog is another key resource.

Fellowship Information

Fellowships are awarded based on academic merit to highly qualified students. They are paid to students through the Office of Student Financial Assistance, based on instructions provided by the College of Graduate Studies. Fellowships are given to support a student's graduate study and do not have a work obligation. For more information, see UCF Graduate Fellowships, which includes descriptions of university fellowships and what you should do to be considered for a fellowship.

The program consists of 30 credit hours of courses and internship. Students will work with an adviser to design a program of study, which will be presented to the program director for approval. If a student has an industrial sponsor, the student's program of study will be developed in consultation with a representative from his sponsoring company. Students are expected to obtain hands-on experience. The capstone requirement for this track is fulfilled by students completing an experiential learning requirement (3 credit hours). At least one-half of the program courses must be taken at the 6000 level.

Mathematical Science (MS) - Industrial Mathematics (2024)

FAQs

What is the difference between mathematics and industrial mathematics? ›

Industrial mathematics is an inherently interdisciplinary field. In addition to mathematics, it includes subjects from fields outside mathematics such as business, computer science and engineering, and trains mathematics students how to apply mathematical analysis to problems arising in these areas.

What are the subject combination for industrial mathematics? ›

UTME Subject combination for Industrial Mathematics:

Mathematics and any two (2) of Physics, Chemistry, Economics, Biology and Agricultural Science.

What is mathematical sciences major? ›

Mathematical Sciences (BS, BA, minor)

The main areas of concentration in the department are algebra, analysis, combinatorics, geometry/topology and statistics.

What is applied industrial mathematics? ›

Applied and Industrial Mathematics aims to solve real-world problems in Science, Engineering, Medicine, and Finance. It enhances your critical thinking skills and is integral to every scientific endeavour. Applied and Industrial Mathematics is fundamental to problem-solving.

What is the hardest field of mathematics? ›

Pure math (analysis, abstract algebra, graph theory, topology, etc.) is probably on average the hardest, but there is going to be some variability. In layman's terms pure math is proving math.

Is mathematical science the same as mathematics? ›

The mathematical sciences are a group of areas of study that includes, in addition to mathematics, those academic disciplines that are primarily mathematical in nature but may not be universally considered subfields of mathematics proper.

Is industrial engineering math heavy? ›

This is a very math-heavy field, and there are often several industrial engineering math requirements that students need to fulfill.

What are the uses of industrial mathematics? ›

Description
  • Applied mathematical modelling.
  • Mathematical methods for industrial robotics‎ and automation systems.
  • Mathematical methods for mechanical and civil engineering.
  • Algorithms, optimization, and optimal control.
  • Partial differential equations and their applications in engineering.

Do you need to be good at math for industrial engineering? ›

High school students interested in industrial engineering should take classes in mathematics, such as algebra, trigonometry, and calculus; computer science; and sciences, such as chemistry and physics. Industrial engineers typically need a bachelor's degree in industrial engineering or a related field.

What can I do with a mathematical science degree? ›

Example Positions
  • Lead Statistician. ...
  • Statistician. ...
  • GEOINT Analyst (Analytic Methodologist) ...
  • GEOINT Analyst (Data Science) ...
  • Applied Research Mathematician. ...
  • Cryptanalytic Diagnostician. ...
  • Data Scientist. ...
  • Management Analyst.

What is the highest paying job involving math? ›

Best Jobs For Math Majors
RankJob TitleMost Common Major
Rank:1Software Development ManagerMost Common Major:Mathematics
2ActuaryMost Common Major:Mathematics
3Senior Data ScientistMost Common Major:Mathematics
4Information Technology (IT) DirectorMost Common Major:Mathematics
21 more rows

What do you mean by mathematical sciences? ›

The mathematical sciences have two major aspects. The first and more abstract aspect can be described as the study of structures, patterns, and the structural harmony of patterns. The search for symmetries and regularities in the structure of abstract patterns lies at the core of pure mathematics.

How much do applied mathematicians make? ›

Applied Mathematics Salary
Annual SalaryMonthly Pay
Top Earners$85,000$7,083
75th Percentile$70,000$5,833
Average$58,837$4,903
25th Percentile$45,000$3,750

What is the scope of industrial mathematics? ›

Industrial mathematicians work in a variety of industries, including banking, pharmaceuticals, mining, shipping and manufacturing. They apply statistics, projections and mathematical modeling to a variety of problems.

What is the difference between mathematics and applied mathematics? ›

Mathematics focuses on abstract concepts and theoretical problems, while applied mathematics emphasizes solving real-world problems using mathematical techniques. This comprehensive guide helps readers understand the differences and make an informed decision about their career path.

What is industrial math used for? ›

In addition to mathematics, industrial mathematics plays a growing role in developing robotics and automation systems, mechanical engineering, civil engineering, and others. It is concerned with developing and finding the most efficient mathematical methods to solve problems arising in industrial settings.

What is the difference between math EE and math IA? ›

IA and EE in IB Mathematics are essentially the same in terms of what they require. However, EE is an extended and a much more in-depth analysis of the topic of your choice. Therefore, for an EE the topic you choose should be a little broader and have a lot more potential for detailed study than your topic for your IA.

How much do industrial math professionals make in the US? ›

Mathematicians with a math master's degree earn a median annual salary of $108,100, and enjoy industrial mathematics jobs like: Actuarial analyst.

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