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Master of Science in Applied Physics and Computer Science
MASTER OF SCIENCE IN APPLIED PHYSICS AND COMPUTER SCIENCE Dr. Peter Monaghan, Graduate Program Director Luter Hall 302 peter.monaghan@cnu.edu (757) 594-8293
The Master of Science in Applied Physics and Computer Science is built around a core of physics and computer science courses that are the foundation of the three areas of concentration: computer science, computer systems engineering and instrumentation, and applied physics. The CNU master’s program offers students with a bachelor’s degree a significant step in their maturing as scientists. Given the interdisciplinary nature of the department, the thesis opportunities are exceptionally varied, including software and/or hardware projects drawn from faculty research areas including: nuclear physics, gravitational waves, space science, cyber security, cryptography, human-machine interfaces, robotics, machine learning, virtual and augmented reality, data analysis, visualization, science education and software engineering. Some research is conducted offsite at national facilities including the NASA Langley Research Center and the Thomas Jefferson National Accelerator Facility.
Concentration Areas
M.S. - APCS applicants select a concentration from one of the following:
Applied Physics Computer Systems Engineering and Instrumentation Computer Science
Each concentration offers a thesis or non-thesis program.
Admission Requirements for Degree-Seeking Students
1.A baccalaureate degree from an institutionally accredited college or university with a minimum grade point average of 3.00 on a 4.00 scale. 2.An official transcript from the baccalaureate institution with the degree posted, and official transcripts for all graduate work taken at other institutions. 3.Three letters of recommendation from people who can attest that the applicant is likely to be able to be successful in graduate-level academic work. 4. Scores from the Graduate Record Examination (GRE) General Test taken within five years prior to the date of admission. A GRE score of at least 295 for Verbal and Quantitative sections combined is required. For those applicants already holding a master’s degree, the GRE may be waived by permission of the Director of Graduate Studies. A letter to the
Director of Graduate Studies requesting a waiver is required.
The Master of Science in Applied Physics and Computer Science is designed to serve students with a baccalaureate degree in applied physics, computer science, electrical and/or computer engineering or mathematics. Students with degrees in other areas are encouraged to apply. Departmental graduate advisors will establish the background courses needed for such students.
Academic Policy for Non-Degree Students
Non-degree students are limited to 12 hours of graduate study. Up to 12 credits of graduate study may be applied to the graduate degree should a non-degree student apply and be accepted to degree-seeking status. Should a non-degree student desire additional courses beyond the 12-credit limit, he or she may petition the Graduate Program Director for a waiver of this limit. Before enrolling in any graduate course a non-degree student must obtain consent of the instructor. The instructor will determine whether the student has the academic background prerequisites for the specific course. Admission requirements for non-degree students are found on page 14 of this catalog.
Changing from Non-degree Status to Degree-seeking Status
A non-degree student may apply to change to degree-seeking status if he or she: • has completed 12 hours of CNU graduate courses with a cumulative 3.0 GPA or higher, • has a status of Good Academic Standing, and • has submitted passing scores from the Graduate Record Exam.
To apply, submit the Request for Change to Degree-seeking Status form to Graduate Admission along with the documentation listed in ‘Admission Requirements for Degree-seeking Students’ shown on page 14.
Academic Prerequisites
See each concentration for the specific academic prerequisites. An accelerated schedule of undergraduate prerequisites can be arranged for applicants whose qualifications do not entirely satisfy the prerequisites for graduate study. Good computer programming skills are critical to a student’s success in many of the courses, especially those courses with the CPSC prefix.
Curriculum
The student chooses either the 30-hour program, which requires three core courses, four concentration courses and a thesis, or the 36-hour program, which requires three core courses, five concentration courses and four elective courses.
The special feature of the coursework in the master’s degree program is its emphasis on applications, laboratory experience and extensive use of computer software and hardware. All of the courses make extensive use of computers or require significant laboratory experimentation.
A formal plan of graduate study is prepared with the student’s advisor. The general requirements listed are guides and serve as a model for students’ planning for each of the concentrations.
Thesis Proposal and Defense (Thesis Option)
Thesis students write and orally defend a thesis proposal. The written proposal and its oral defense are designed to evaluate the student’s readiness to conduct research. The scope of this evaluation is the significance, soundness and viability of the proposed research, as well as the student’s proficiency in his or her field. A student failing the proposal defense may request a re-examination within six months of the failure. Only one additional defense is permitted.
Comprehensive Examination (Non-Thesis Option)
A comprehensive examination is required, covering the concentration courses. This comprehensive examination may be written or oral. At the time of the comprehensive exam at a specifically designated time, each student will be asked questions that specifically assess the student’s mastery of course-related objectives. A student not passing the comprehensive examination may request a re-examination within six months of the failure. Only one additional examination is permitted after the failure of the original comprehensive examination.
Thesis
Students whose research results in a thesis are required to enroll in at least one thesis credit hour during any se-
mester in which they are working on the thesis and must enroll in at least one thesis credit hour during the semester of degree completion.
All theses presented must meet the requirements as listed in the Policy and Style Manual for Thesis Proposals and Master’s Theses and the Thesis Format Review and Final Copy Due Dates. The website cnu.edu/gradstudies/ lists the regulations in this regard. Finally, theses may be placed in the CNU library as research sources available to the academic community.
GRADUATION REQUIREMENTS
Thesis Option
• Successful completion of 30 hours of the M.S. in Applied Physics and Computer Science degree program, consisting of 21 hours coursework and 9 hours of thesis. • An overall graduate grade point average of 3.00 in all CNU courses submitted for graduate credit with no more than two grades of C; • Successful completion of the thesis proposal and oral defense; • Successful defense of the completed thesis and presentation of the appropriate number of approved copies to the
Graduate Studies office by the published deadline; • Presentation of an electronic copy of the thesis in a suitable format to the department and the Office of Graduate
Studies for archive purposes only.
Non-Thesis Option
• Successful completion of 36 hours of the M.S. in Applied Physics and Computer Science degree program coursework; • An overall graduate grade point average of 3.00 in all CNU courses submitted for graduate credit with no more than two grades of C; • Successful completion of the comprehensive examination.
Graduate Assistantships
See page 33 of the catalog for special terms, criteria and procedures. Applications are available on the department’s website.
For further information:
Contact the APCS Graduate Program Director, Dr. Peter Monaghan, by email at peter.monaghan@cnu.edu or (757) 5948293.
MASTER OF SCIENCE IN APPLIED PHYSICS AND COMPUTER SCIENCE COMPUTER SCIENCE CONCENTRATION
Academic Prerequisites
All applicants should have completed a three-semester sequence in mathematics, including at least two semesters of calculus; and programming, including data structures. It is assumed that these courses are at least at the level of the following texts: Anton, Calculus; Liang, Java Programming; Aho, Hopcroft and Ullman, Data Structures; Mano, Computer Engineering. Students who do not have all prerequisites may, in some cases, be allowed to take a graduate independent study course to develop the necessary background for further graduate work.
Program of Study — 30-36 Credits
To ensure a depth and focus appropriate to the master’s level and student’s interests, the student’s Plan of Study must be approved by the Graduate Program Director.
Core Courses
CPSC 501 Software System Design and Implementation CPSC 502 Communications I (Computer Networks) CPSC 510 Artificial Intelligence I
Thesis 9 credits Non-Thesis 9 credits
Concentration Courses 12 credits 15 credits
Select CPSC or PCSE courses from the M.S. in Applied Physics and Computer Science program. NOTE: If PCSE 579 is successfully completed three times, it is treated as if the student completed a three-credit course and will be applied as such to the graduation requirements.
Thesis
PCSE 699 Thesis Research (1-9)
9 credits
OR
Non-Thesis
12 additional credit hours of CPSC courses from the M.S. in Applied Physics and Computer Science program
Total for M.S. in APCS 12 credits
30 credits 36 credits
MASTER OF SCIENCE IN APPLIED PHYSICS AND COMPUTER SCIENCE COMPUTER SYSTEMS ENGINEERING AND INSTRUMENTATION CONCENTRATION
Academic Prerequisites
All applicants should have completed a two-semester sequence in physics, including mechanics and at least two labs; a fivesemester sequence in mathematics, including calculus, matrix methods and differential equations; programming, including data structures; a course in computer organization and architecture; and a course with a lab in circuit analysis. It is assumed that these courses are at least at the level of the following texts: Serway, Classical and Modern Physics; Anton, Calculus; Williams, Linear Algebra with Applications; Boyce and DiPrima, Ordinary Differential Equations; Liang, Java Programming; Aho, Hopcroft and Ullman, Data Structures; Mano, Computer Engineering; Hayt and Kemmerly, Circuit Theory.
Program of Study - 30-36 Credits
To ensure a depth and focus appropriate to the master’s level and student’s interests, the student’s Plan of Study must be approved by the Graduate Program Director.
Thesis Non-Thesis
Core Courses
PHYS 521 Computer Architecture CPSC 501 Software System Design and Implementation CPSC 502 Communications I (Computer Networks)
9 credits 9 credits
Concentration Courses
12 credits 15 credits
Select courses from the M.S. in Applied Physics and Computer Science program. NOTE: If PCSE 579 is successfully completed three times, it is treated as if the student completed a three-credit course and will be applied as such to the graduation requirements.
Listed below are some examples. PCSE 503 Data Acquisition PHYS 522 Microprocessor-based Systems PHYS 621 Digital Signal Processing CPSC 525 Object Oriented Programming and Design CPSC 611 Communications II CPSC 621 Parallel Processing
Thesis
PCSE 699 Thesis Research (1-9)
9 credits
OR
Non-Thesis
12 additional credit hours of courses from the M.S. in Applied Physics and Computer Science program
12 credits
Total for M.S. in APCS
30 credits 36 credits
MASTER OF SCIENCE IN APPLIED PHYSICS AND COMPUTER SCIENCE APPLIED PHYSICS CONCENTRATION
Academic Prerequisites
All applicants should have completed a three-semester sequence in physics, including modern physics and at least two labs; a five-semester sequence in mathematics, including calculus, matrix methods and differential equations; programming, including data structures; and a course with a lab in circuit analysis. It is assumed that these courses are at least at the level of the following texts: Serway, Classical and Modern Physics; Anton, Calculus; Williams, Linear Algebra with Applications; Boyce and DiPrima, Ordinary Differential Equations; Liang, Java Programming; Aho, Hopcroft and Ullman, Data Structures; Hayt and Kemmerly, Circuit Theory.
Program of Study — 30-36 Credits
To ensure a depth and focus appropriate to the master’s level and student’s interests, the student’s Plan of Study must be approved by the Graduate Program Director.
Thesis Non-Thesis
Core Courses
PHYS 501 Models of Dynamical Systems (3) PHYS 504 Electromagnetic Theory (3) PHYS 502 Quantum Physics (3) OR PHYS 506 Thermodynamics & Statistical Physics (3)
9 credits 9 credits
Concentration Courses 12 credits 15 credits
Select any four PHYS or PCSE courses from the M.S. in Applied Physics and Computer Science program, not including any course taken to fulfill the core courses requirement. CPSC 501 is also an acceptable choice. NOTE: If PCSE 579 is successfully completed three times, it is treated as if the student completed a three-credit course and will be applied as such to the graduation requirements.
Thesis
PCSE 699 Thesis Research (1-9)
9 credits
OR
Non-Thesis
12 additional credit hours of courses from the M.S. in Applied Physics and Computer Science program
