2018-2019 Florida Tech Catalog [ARCHIVED CATALOG]
Department of Mathematical Sciences
Ugur G. Abdulla, Ph.D., Head
|Applied Mathematics, M.S.
|Applied Mathematics, Ph.D.
|Educational Technology, M.S.
|Elementary Science Education, M.Ed.
|Environmental Education, M.S.
|Interdisciplinary Science - Aeronautics, B.S.
|Interdisciplinary Science - Military Science, B.S.
|Interdisciplinary Science, B.S.
|Interdisciplinary Science, M.S.
|Master of Arts in Teaching, M.A.T.
|Master of Education, M.Ed.
|Mathematical Sciences - Applied Mathematics, B.S.
|Mathematical Sciences, B.S.
|Mathematics Education, Ed.S.
|Mathematics Education, M.S.
|Mathematics Education, Ph.D.
|Operations Research, M.S.
|Operations Research, Ph.D.
|Science Education - Informal Science Education, M.S.
|Science Education, M.S.
|Science Education, Ed.S.
|Science Education, Ph.D.
Undergraduate Certificate Program
Athletics Coaching Certification
Undergraduate Minor Programs
Graduate Certificate Program
Ugur G. Abdulla, Ph.D., partial differential equations, potential theory, nonlinear PDEs, optimal control and inverse problems, free boundary problems, probabilistic potential theory, dynamical systems, chaos theory.
Jewgeni H. Dshalalow, Dr. Sci., real analysis, stochastic processes, queuing theory, mathematical finance, stochastic games, stochastic networks.
Kastro M. Hamed, Ph.D., STEM teaching and learning, physics education, teacher education.
Cecilia A. Knoll, Ph.D., calculus mastery, integrating technology into the curriculum.
Semen Köksal, Ph.D., differential equations, mathematical biology, neural networks, dynamical systems, mathematical modeling.
Thomas J. Marcinkowski, Ph.D., environmental education, curriculum and instruction, research and evaluation design.
Kanishka Perera, Ph.D., variational and topological methods for nonlinear partial differential equations, semi- and quasi-linear elliptic boundary value problems, problems and singularities, critical point theory, infinite dimensional Morse theory.
Gnana B. Tenali, Ph.D., wavelet analysis, differential operators, dynamical systems.
Jian Du, Ph.D., scientific computing, numerical analysis, modeling and mathematical biology.
Jim Jones, Ph.D., computational mathematics, parallel computing, numerical solution of PDEs.
Tariel I. Kiguradze, Ph.D., partial differential equations, hyperbolic equations and systems, boundary value problems, qualitative theory.
Jay J. Kovats, Ph.D., elliptic and parabolic partial differential equations, diffusion processes.
Nezamoddin Nezamoddini-Kachoiue, Ph.D., biostatistics, bioimaging, signal processing, computer vision.
Michael D. Shaw, Ph.D., nonlinear differential equations, Lyapunov stability theory.
Munevver M. Subasi, Ph.D., stochastic programming, mathematical modeling, bioinformatics, combinatorial data analysis, data mining.
Vladislav Bukshtynov, Ph.D., numerical optimization, contol theory, inverse problems.
Samantha Fowler, Ph.D., functional scientific literacy, socio-cultural attitudes toward science.
William T. Girton, Ph.D., difference and differential equations.
Jonathan Goldfarb, Ph.D., partial differential equations, optimal control and inverse problems, scientific computing.
Joo-young Park, Ph.D., mathematics education, mathematical modeling.
Stanley Snelson, Ph.D., partial differential equations, integral equations, mathematical physics, nonlinear wave equations.
Aaron Welters, Ph.D., mathematical physics, electromagnetic theory, materials science.
Ryan White, Ph.D.
Mathematics Advancement Center
Jonathan Goldfarb, Ph.D., Director
Frederick B. Buoni, Ph.D.; Richard E. Enstice, Ph.D.; Robert H. Fronk, Ph.D., Charles T. Fulton, Ph.D.; Dennis E. Jackson, Ph.D.
Debra Blenis, M.S.
The mission of the Department of Mathematical Sciences is to provide mathematical education with the goal of producing 21st-century problem-solvers equipped with the analytical tools and mathematical intuition required to tackle a diverse range of contemporary problems; to push the boundary of knowledge in mathematical sciences and the emerging fields of engineering and the natural sciences through application of advanced methods of applied mathematics; and to develop new mathematics capable of solving challenging problems of society.
Minors in athletics coaching and computational mathematics are offered through the department. A complete policy statement regarding minors can be found in the Academic Overview section. Information about current minor offerings is available through the individual colleges/departments.
Teacher Preparation Programs
Florida Tech has partnered with Brevard County Public Schools to implement a new teacher preparation program based on the national UTeach model. One of only four universities in Florida offering UTeach teacher preparation courses, students enrolled in UTeach at Florida Tech can earn a science, mathematics, engineering, technology, computer science or interdisciplinary science degree and become eligible for secondary teacher certification upon graduation.
The goal of the UTeach teacher preparation program is to increase the quantity and quality of science, technology, engineering and mathematics (STEM) teachers in U.S. schools. UTeach responds to the shortage of such teachers on local, state and national levels.
The UTeach program is nationally recognized for its success at training highly qualified teachers and successfully placing them in schools around the country.
The department offers the ability for interested students to apply for teacher certification upon graduation so they may go into schools qualified and well prepared.
Applied mathematics: Active areas of research in the mathematics program include nonlinear partial differential equations, potential theory, optimal control of systems with distributed parameters, inverse problems for PDEs, free boundary problems, mathematical modeling, neural networks, scientific computing and numerical analysis of nonlinear PDEs, mathematical biology, reaction-diffusion equations, variational methods for PDEs, critical point theory, mathematical physics, stochastic processes, queuing theory, dynamical systems, chaos theory, nonlocal PDEs, integral equations, and nonlinear wave equations.
Mathematics education: Diverse research activities arise from student interest, are conducted in collaboration with student advisers and span the entire K-16 community. Research is guided by current research and related issues that emerge from within the mathematics education research community.
National environmental literacy assessment (NELA) project: Funded by NOAA and EPA, and administered by the North American Association for Environmental Education, the NELA project is a multi-phase research project to help determine how environmental education practices support the development of environmental literacy among middle-school students around the U.S.
Operations research: Active areas of research in the operations research area include stochastic games, stochastic networks, mathematical finance, stochastic programming, optimization and optimal control, inverse and ill-posed problems, regularization, bioinformatics, data mining, biostatistics, image processing, signal processing, modeling of controlled queuing systems, decision making under uncertainty, modeling of complex biological systems, engineering management, quality control, scheduling and timetabling algorithms, applied graph theory and integer programming.
Science education: Research activities in science education vary across all major science disciplines including aeronautics, biology, chemistry, computer science, environmental and earth science, physics and psychology. Students are encourage to pursue research topics commensurate with their science background and teaching experience and represent the application of science to the K-16 education community.