Standards and requirements for

Degrees in the School of Science and Computer Engineering

Catalog 2009-1010

Standards and requirements for Degrees in the School of Science and Computer Engineering  1

Admission into a Degree Plan 2

Standards for Graduate Degrees. 2

Graduate Degree Options 2

 

Division of Computing and Mathematics 3

Requirements and Standards for Plans in Computing, Mathematical Science and Statistics. 3

Graduate Computing Degrees. 3

Computer Science. 7

Participation with PhD Degree at Texas A&M University. 11

Mathematical Science and Statistics Degrees. 11

Mathematical Science. 11

Statistics. 13

Dual Master Degrees of Mathematics and Statistics. 14

 

Division of Engineering 16

Requirements and Standards for Plans in Engineering. 16

Computer Engineering. 16

Engineering Management 19

Software Engineering. 22

Software Engineering via Distance Education (Online) 26

Software Engineering Certificate. 26

Systems Engineering. 27

Systems Engineering Certificate. 29

Division of Natural Sciences 30

Biological Sciences 30

Biological Sciences. 30

Biotechnology 32

Chemistry 37

Chemistry. 38

Environmental Science 39

Physics. 42

Collaborative UHCL/UH Physics Ph.D. Program.. 45

Physics Candidacy Certificate. 45

Admission into a Degree Plan (back to top)

Following admission to the university, students' transcript evaluations are forwarded to the Office of Student Advising. All graduate plans require that faculty admissions committees review the students' files and determine whether students will be accepted into degree plans. Students are notified of their admission status by the associate dean. Once accepted to a degree plan, students meet with academic advisors at New Student Orientation to obtain detailed instructions about completing a Candidate Plan of Study (CPS). The CPS delineates specific requirements of a study area and must be completed during the semester of acceptance into a degree plan.

In general, no more than 9 hours for a graduate degree taken at University of Houston-Clear Lake prior to completion of a CPS may be applied toward any degree in the school. These hours, along with the hours accumulated during the semester the CPS is being finalized, will be evaluated for acceptance by the faculty advisor and approved by the associate dean.

Standards for Graduate Degrees (back to top)

The Graduate Record Exam (GRE) is required of all students applying for admission to a graduate plan in the school. Computer Information Systems is the only plan that accepts Graduate Management Admission Test (GMAT) in lieu of the GRE. It is recommended that students who apply for admission to a graduate plan have a grade point average (GPA) of at least 3.000 (four point grade scale) on the last 60 hours of course work. GRE scores will be evaluated by the degree plan's admissions committee and will be used as one of the indicators of the applicant's potential for completion of the plan to which he/she has applied. Individual degree plans may specify additional qualifications (see individual plan descriptions).

All graduate degrees in the School of Science and Computer Engineering require 30-36 hours depending on specific plan requirements; a minimum of 30 hours must be graduate courses. No more than six hours of upper-level (4000 level) credit will be allowed in any master's degree. A maximum of six hours of Independent Study may be applied to any master's degree. A maximum of six hours of grades within the range of "C+," or "C" may be counted toward any graduate degree.

Graduate Degree Options (back to top)

Thesis Option

Students selecting the thesis option must select a committee and submit a formal thesis proposal to the Office of the Dean prior to enrolling for thesis courses. The thesis committee will consist of at least three members, two of whom must be full-time UHCL faculty members. A fulltime faculty member of the School of Science and Computer Engineering will serve as the chair of the committee. The Office of the Dean will notify students, chairs and committee members of approval of the committee composition. The chair will report the final grades.

Students must register for the appropriate thesis research course no later than the first long semester after the dean has accepted the proposal. See the Master's Degree Option: Master's Thesis section of this catalog for more information.

University and SCE guidelines and procedures relating to the graduate thesis committee, thesis proposal, the thesis document and defense are described in the Graduate Thesis Guidelines and Procedures Manual available in the Office of the Dean.

Extended Course Work Option

All graduate plans in the school offering this option require a capstone course. See the particular plan area for the specific extended course work option requirements.

Internship Option

Some plans offer an internship option. See the particular plan of interest.

Research Project Course Option

Some plans offer a research project course option. See the particular plan of interest.

Division of Computing and Mathematics (back to top)

Students desiring to study in the computing and mathematics may choose any one of five undergraduate or four graduate plans. Applicants should consult the chair of the division for additional information.

Requirements and Standards for Plans in Computing, Mathematical Science and Statistics

Graduate Degree Candidacy

Students seeking graduate degree candidacy should have a bachelor's degree in a related field. To be accepted for degree candidacy, students should be within 15 hours of completing upper-level foundation courses. These courses are listed in the particular degree area in the catalog. All foundation courses must be completed within one calendar year of first graduate registration at UHCL. Students needing more than 15 hours of upper-level foundation courses are encouraged to complete a second bachelor's degree.

Graduate Computing Degrees

Computer Information Systems

Graduate studies in Computer Information Systems lead to a master of science (MS) degree. This plan is designed to prepare students for key technical, administration and management positions in the analysis, design, implementation, maintenance, operation and management of industrial and commercial computer information systems.

Basic Preparation

Students aspiring to graduate degree candidacy must have a bachelor's degree in a related area and a background in Computer Information Systems. Preparatory requirements are proficiency in at least two high level languages, including an object-oriented programming language such as Java, C++ or C#, and the following undergraduate course:

Calculus I or Business Calculus

Upper-level foundation course requirements:

CSCI	4333	Design of Database Systems
CSCI	3331	Comp Org & Assembly Lang
MATH	3331	Discrete Mathematics
CSCI	3333	Data Structures
SWEN	4432	Software Engineering
CINF	3331	Business Data Communications
CSCI	4230	Web App Development
(or CENG 3331 + CENG 3311)

None of the above courses may apply to the graduate degree.

Students may select from the thesis option or the extended course work option. The thesis option requires 33 credit hours of graduate work and the extended course work option requires 36 credit hours.

Core Requirements (9 Hours)

The following courses, or approved substitutions are required for both the thesis option and extended course work options:

CSCI	5132	Internet Protocols
CSCI	5333	Database Management Systems
CSCI	6530	Research Methods in Computer Science

Thesis Option (24 Hours)

CENG/CINF/CSCI/SWEN or other approved related courses	6 hours
CINF/CSCI 4000-6000 level	3 hours
*CINF/CSCI courses, 5100-6000 level	9 hours
CSCI 6939 Master's Thesis Research	6 hours

* Students interested in pursuing the thesis option are encouraged to take CINF 5939 (Independent Study in CIS) during their first year, in order to write up their thesis proposals (with the sponsoring of a faculty advisor).

Extended Course Work Option (27 Hours)

Students desiring to follow the extended course work option must successfully complete the capstone project course (CINF 6838).

CENG/CINF/CSCI/SWEN or other approved related courses			6 hours
CINF/CSCI		4000-6000	6 hours
CINF/CSCI		5100-6000	12 hours
CINF	6838	Research Project and Seminar	3 hours
	(taken after completion of the required core and during last 12 hours)

Sub-plan In Database and Web-based Systems

Students interested in developing a sub-plan in Database Systems and Web-based Systems should take the following electives:

CSCI	5433	Object-Oriented Database Systems
CSCI	5533	Distributed Information Systems
CSCI	5633	Web Database Development
CSCI	5733	XML Application Development
CSCI	5833	Data Mining: Tools and Techniques

Sub-plan In Networking and Security

Students interested in developing a sub-plan in Networking and Security should take the following electives:

CENG	5333	Network Performance Analysis
CSCI	5233	Computer Security and Integrity
CSCI	5234	Web Security
CSCI	5235	Network Security
CSCI	5431	Client-Server Based Network Programming
CSCI	5531	Advanced Operating Systems

Suggested Plan of Study (for students in the Thesis Option)

The following study plan for the four regular semesters is recommended as a typical example for incoming full-time CIS students who plan to pursue the Thesis option. Individual study plans may vary as long as the prerequisite structures are satisfied. Students should seek the advice of their assigned faculty advisor and set up their Candidate Plan of Study (CPS) as early as possible.

Semester 1 (9 credits):

CSCI 5132	Internet Protocols
CSCI 5333	Database Management Systems
CINF/CSCI	4000-6000 level

Semester 2 (9 credits)

CINF/ CSCI	5000-6000 level
CSCI 6530	Research Methods in Computer Science
CINF/CSCI 5939	Independent Study

Semester 3 (9 credits)

CENG/CINF/SWEN or other approved related courses
CINF/CSCI	5100-6000 level
CINF/CSCI 6939	Master's Thesis Research

Semester 4 (6 credits)

CINF/CSCI	5100-6000 level
CINF/CSCI 6939	Master's Thesis Research

Computer Science

The plan in Computer Science leads to the master of science (MS) degree. This plan is designed to prepare students to hold key technical positions in the development of computer-based solutions to complex systems problems.

Basic Preparation

Students seeking admission into the degree plan in Computer Science must have a bachelor's degree in computer science or a closely related area and extensive background in computer science. It is expected that the minimum GRE score required for acceptance into the plan be reasonably balanced among the different components of the GRE exam. Students with bachelor's and master's degrees in related fields of study will be required to complete appropriate background courses. The admissions committee, during evaluation of the student's application, will designate courses to be completed before beginning graduate studies. Preparatory requirements include proficiency in at least two modular computer programming languages, including C or C++, plus the completion of the following undergraduate courses, their equivalents or successful completion of equivalence exams upon approval from the admissions committee.

Calculus II (Not offered at UHCL)

CENG	3511	Lab for Computer Architecture
CSCI	4333	Design of Database Systems
CENG	3531	Computer Architecture
CSCI	4534	Operating Systems
CSCI	3331	Comp Org & Assembly Lang
MATH	3131	Introduction to Linear Algebra
CSCI	3333	Data Structures
SWEN	4432	Software Engineering
CSCI	3532	Adv Data Structures & Algorithms

Additionally, at least two of the following must be completed:

CSCI	3231	Numerical Methods
PHYS	3032	University Physics II
MATH	3331	Discrete Mathematics
MATH	3334	Probability and Statistics for Scientists & Engineers
MATH	4131	Ordinary Differential Equations and Applications

None of the above courses may apply towards the graduate degree.

Students should consult with their faculty advisor to determine if they have sufficient background to satisfy a specific course prerequisite. Foundation and prerequisite courses should be completed before enrolling in any graduate course.

Students expecting credit for foundation courses completed at international institutions must submit course descriptions. This will allow proper evaluation and appropriate credit.

Students may select from the thesis option or the extended course work option. The thesis option requires 33 credit hours of graduate work. The extended course work option requires 36 credit hours.

Core Requirements (12 Hours)

The following courses or their approved substitutions are required for both the thesis and the extended course work options:

CSCI	5333	Database Management Systems
CSCI	5531	Advanced Operating Systems
CSCI	6530	Research Methods in Computer Science

One of the following:

CSCI	5232	Concepts of Programming Languages
CSCI	5432	Design and Analysis of Algorithms

Thesis Option (21 Hours)

Required courses for thesis option.

CSCI/CINF/SWEN/CENG/SENG 4000-6000	3 hours
CSCI electives	3 hours
CSCI/CINF electives	3 hours
CINF/SWEN/CENG/SENG electives	6 hours
CSCI 6939 Master's Thesis Research	6 hours

Extended Course Work Option (24 Hours)

Complete the following courses:

CSCI/CINF/SWEN/CENG/SENG	4000-6000	6 hours
CSCI electives	5100-6000	6 hours
CSCI/CINF electives	5100-6000	6 hours
CINF/SWEN/CENG/SENG electives		3 hours
CSCI 6838	Research Project and Seminar	3 hours

NOTE: CSCI 6838 MUST BE TAKEN DURING THE LAST 12 HOURS, AFTER COMPLETION OF CSCI 5531 AND CSCI 5333.

Sub-plans

Students interested in developing a sub-plan should take the corresponding courses listed below:

Sub-plan in database systems:

CSCI	5433	Object-Oriented Database Systems
CSCI	5533	Distributed Information Systems
CSCI	5633	Web Database Development
CSCI	5733	XML Application Development
CSCI	5833	Data Mining: Tools and Techniques

Sub-plan in Network Performance and Security:

CENG	5333	Network Performance Analysis
CSCI	5132	Internet Protocols
CSCI	5233	Computer Security and Integrity
CSCI	5234	Web Security
CSCI	5235	Network Security
CSCI	5631	N-Tiered Client-Server Architectures

Sub-plan in Data Mining and Computational Bioinformatics:

BIOT	5733	Bioinformatics
CENG	5634	Artificial Neural Networks
CSCI	5530	Pattern Classification
CSCI	5532	Pattern Recognition and Image Processing
CSCI	5833	Data Mining: Tools and Techniques
CSCI	5933	Computational Bioinformatics

Participation with PhD Degree at Texas A&M University

The Computer Science Department of Texas A&M University is accepting applications for the PhD plan from interested UHCL graduates. The degree requirements include minimal residence at the Texas A&M campus. Texas A&M University maintains the same entrance standards for all applicants. This case by case plan supports research within the Clear Lake area technical community. Individuals may contact the Chair of the UHCL Computer Science plan for details.

Mathematical Science and Statistics Degrees (back to top)

Mathematical Science

The graduate plan in Mathematical Science leads to the master of science (MS) degree. Applicants for candidacy should have a bachelor's degree in mathematics. Students with other degrees may apply if their preparation includes a substantial number of advanced credits in mathematics. In some cases, additional preparatory courses may be required.

Undergraduate Foundation Courses for Masters in Mathematics

• Ordinary Differential Equations
• Abstract Algebra
• Advanced Calculus
• Real Analysis

Introduction to Probability (may be waived with advisor's consent if undergraduate real analysis is successfully completed before enrollment in STAT 5431 Theory and Application of Probability.

With advisor's approval, two of the following may count towards the Master's Degree if taken as a graduate student at UHCL: MATH 4431 (Introduction to Analysis) and MATH 4232 (Introduction to Abstract Algebra) or MATH 4133 (Introduction to Topology). [Provided that equivalent courses have not been completed previously]

Course selections will be arranged in consultation with a faculty advisor while preparing the CPS. Students selecting the extended course work option must complete MATH 6837 (Research Project 1). This is to be taken after successfully completing nine hours of core and during the last 9 hours of course work. MATH 6838 (Research Project II) can be completed following MATH 6837 with faculty adviser approval prior to registration.

Core Requirements (18 Hours)

MATH	5131	Abstract Algebra
MATH	5136	Ordinary Differential Equations & Dynamical Systems
MATH	5132	Real Analysis

Students will select three courses from the following seven:

MATH	5134	Logic
MATH	5333	Numerical Analysis
MATH	5231	Linear Algebra
MATH	5330	Mathematical Software & Modeling Simulation
MATH	5137	Topology & Geometry
STAT	5431	Theory and Application of Probability
MATH	5431	Mathematical Modeling in the Applied Sciences

Thesis Option (18 Hours)

MATH, STAT courses, 5000-6000 level	6 hours
Electives, 5000-6000 level courses	6 hours
MATH 6939 Master's Thesis Research	6 hours

Extended Course Work Option (18 Hours)

MATH, STAT courses, 5000-6000 level	6 hours
Electives, 5000-6000 level courses	6 hours
MATH Electives, 4000-6000 level	3 hours
MATH 6837 Research Project I	3 hours

Statistics

The plan in Statistics leads to a master of science (MS) degree. This plan emphasizes a curriculum that is designed to educate students in the theory and application of statistics. The plan is suitable for students with an undergraduate background in mathematics, engineering or the sciences.

Students with degrees in engineering, science or other fields will be considered if their preparation includes an adequate number of upper-level credits in mathematics and statistics. In some cases, additional preparatory courses may be required.

Core Requirements (18 Hours)

The following courses or their approved substitutes are required:

MATH	5231	Linear Algebra
STAT	5532	Linear Models & Regression Analysis
STAT	5431	Theory & Application of Probability
STAT	5533	Statistical Computing with SAS & S-Plus
STAT	5432	Theory & Applications of Statistics
STAT	5531	Multivariate Statistical Analysis

Thesis Option (18 Hours)

STAT courses, 5000-6000 level	3 hours
Electives, 5000-6000 level	3 hours
MATH or STAT electives, 4000-6000 level	6 hours
STAT 6939 Master's Thesis Research	6 hours

Extended Course Work Option (18 Hours)

Students desiring to follow the extended course work option must complete STAT 6837 and STAT 6838 during the last 18 hours of course work.

STAT courses, 5000-6000 level	3 hours
Electives, 5000-6000 level	3 hours
MATH or STAT electives, 4000-6000 level	6 hours
STAT 6837 and STAT 6838	6 hours

Dual Master Degrees of Mathematics and Statistics

The graduate plan in Mathematics and Statistics leads to a Master of Science (MS) degree in Mathematics and a Master of Science (MS) degree in Statistics. This plan emphasizes a curriculum that is designed to educate students in both Mathematics and Statistics. The plan is suitable for students with degrees in engineering, science or other fields with an undergraduate background in mathematics.

Core Requirements (33 Hours)

The following courses or their approved substitutes are required:

MATH	5131	Abstract Algebra
STAT	5431	Theory & Application of Probability
MATH	5132	Real Analysis
STAT	5432	Theory & Applications of Statistics
MATH	5136	Ordinary Differential Equations & Dynamical Systems
STAT	5531	Multivariate Statistical Analysis
MATH	5231	Linear Algebra
STAT	5532	Linear Models & Regression Analysis
STAT	5533	Statistical Computing with SAS and S-Plus

Students will select two courses from the following six courses:

MATH	5133	Complex Analysis
MATH	5232	Number Theory
MATH	5134	Logic
MATH	5333	Numerical Analysis
MATH	5137	Topology & Geometry
MATH	5431	Math Modeling in the Applied Sciences

Thesis Option (27 Hours)

MATH /STAT courses	5000-6000 level	9 hours
Electives	5000-6000 level	6 hours
MATH /STAT electives	4000-6000 level	6 hours
MATH or STAT 6939	Master's Thesis Research	6 hours

Extended Course Work Option (27 Hours)

Students desiring to follow the extended course work option must complete Research Project I and II (MATH 6837/6838 or STAT 6837/6838) during the last 18 hours of course work.

MATH /STAT courses	5000-6000 level**	9 hours
Electives	5000-6000 level	6 hours
MATH /STAT electives	4000-6000 level	6 hours
MATH 6837/6838 or STAT 6837/6838		6 hours

**Note: At least 6 of these 9 credit hours have to be in the field in which the thesis or research project is done.

Division of Engineering (back to top)

Students desiring to study in engineering may choose from four graduate plans. The four graduate plans are Computer Engineering (CENG), Software Engineering (SWEN), Systems Engineering (SENG) and Engineering Management (EMGT). Applicants should consult the chair of the division for additional information.

Requirements and Standards for Plans in Engineering

Graduate Degree Candidacy

Students seeking graduate degree candidacy should have a bachelor's degree in a related field. To be accepted for degree candidacy, students should be within 15 hours of completing upper-level foundation courses. These courses are listed in the particular degree area in the catalog. All foundation courses must be completed within one calendar year of first graduate registration at UHCL. Students needing more than 15 hours of upper-level foundation courses are encouraged to complete a second bachelor's degree.

Computer Engineering

The plan in Computer Engineering leads to the master of science (MS) degree. Graduate study in this plan prepares students to occupy leading roles in the development and use of computers and computer systems. The plan in Computer Engineering addresses the evaluation, design and implementation of computer systems for various applications. The curriculum and faculty research emphasize the integration of systems design, software applications and hardware design. Current specializations within the computer engineering degree plan include computer control systems, industrial automation and robotics, fault-tolerant computing, parallel processing, telecommunications and networking. The plan consists of formal courses, laboratory work and research in one of the specialty areas conducted under the guidance of a faculty advisor.

Basic Preparation

Candidates should have a bachelor's degree in Computer Engineering or equivalent. Students should consult an academic advisor to determine if they have sufficient background to satisfy course prerequisites. At a minimum, the following undergraduate courses, or their equivalents, are required and should be completed prior to enrolling in certain graduate courses:

CENG	3112	Lab for Digital Circuits
CENG	4534	Digital System Design
CENG	3132	Digital Circuits
CSCI	3133	Programming with C
CENG	3511	Lab for Computer Architecture
CSCI	3231	Numerical Methods
CENG	3531	Computer Architecture
CSCI	3331	Comp Org and Assembly Language
CENG	4133	Microprocessor Interfacing
MATH	4131	Ord Diff Equations & Appl
CENG	4331	Analysis and Design of Linear Systems

(Note: Students may enroll in CENG 5031 Computer Engineering Fundamentals and CENG 5011 Lab for Computer Engineering Fundamentals to meet the requirements of CENG 3132, CENG 3112, CENG 3531 and CENG 3511.)

Core Requirements (12 Hours)

The following courses or their approved substitutions are required for both the thesis and the extended course work options.

CENG	5131	Engineering Applications	3 hours
CENG	5334	Fault Tolerant Computing	3 hours
CENG	5434	Microcomputer Systems Design	3 hours
CENG	6332	High Performance Computer Architecture	3 hours

Elective Requirements (18 Hours)

The following courses or their approved substitutions are required for both the thesis and the extended course work options.

CENG courses	5100-6000 level	6 hours
CENG/CSCI/SWEN courses	5100-6000 level	6 hours
Technical elective	4000-6000 level	6 hours

Thesis Option (6 Hours)

CENG

6939

Master's Thesis Research

6 hours

(Note: an additional 3 hours of thesis may be used as a plan elective.)

Extended Course Work Option (6 Hours)

CENG	6838	Research Project*	3 hours
CENG	elective	5000-6000 level
(Student may take 3 hours extra of project course)			3 hours

(*To be taken after completion of core courses and during last 12 hours)

Sub-plan in Digital Signal Processing (DSP)

Students interested in developing a sub-plan in Digital Signal Processing should take the following as electives:

CENG	5431	Digital Signal Processing
CENG	5433	Principles of Digital Communication Systems
CENG	6431	DSP Implementations

Sub-plan in Telecommunications

Students interested in developing a sub-plan in telecommunications should take the following as electives:

CENG	5333	Network Performance Analysis
CENG	5433	Principles of Digital Comm. Systems
CENG	5431	Digital Signal Processing

Engineering Management

The graduate plan in Engineering Management (EMGT) leads to the master of science (MS) degree. The Engineering Management Plan offers the candidate the opportunity to earn an advanced degree in two years while maintaining full-time employment. The EMGT curriculum provides the candidate with an enhanced perspective on issues that affect the management of technology in today's world. The material is targeted to equip the candidate with the tools to better manage a project, processes, personnel, products and services in real-world situations. From organization behavior, management of organizations and optimal decision-making, to engineering, economics, the plan courses focus on essential topics. Individuals with engineering and scientific backgrounds will find that this master of science degree may better suit their needs than the traditional MBA.

The Engineering Management (EMGT) curriculum is composed of 30 hours of graduate course work of which 24 will be core courses. The 6 hours of electives could be either a 3 hour course elective with the Capstone Project or 6 hours of Thesis. The following plan course of study illustrates the cross-disciplinary nature of the program.

Entrance Requirements

To enter the EMGT plan, a candidate must hold a bachelor's degree in engineering or science. The candidate must be approved by the graduate admission committee to ensure that the appropriate industrial or existing managerial background knowledge base is present. The GRE is required of all candidates applying for admission. The preferred GRE score is at least 1000 (verbal + quantitative), with a verbal score of 400 or higher. GRE scores will be evaluated by the degree plan's admissions committee and will be used as one of the indicators of the applicant's potential for completion of the plan. It is recommended that candidates who apply for admission to a graduate plan have a GPA of 3.0 or greater (four point grade scale) on the last 60 hours of course work.

The graduate degree in EMGT requires 30 hours of graduate courses. No 4000 level credits will be allowed for the EMGT master's degree. A maximum of six hours of grades of "C" may be counted toward the graduate degree; grades of "C-" will not apply.

Foundation Courses Required for Entrance

In addition, the EMGT graduate admission committee may require that a set of foundation courses and their prerequisites be completed before enrolling in graduate EMGT program. The foundation courses are:

MATH	4131	Ordinary Differential Equations and Apps
MATH	3334	Probability and Statistics for Scientists & Engineers

Industrial related experience and letters of recommendations from current employers may also be required during admission review. The EMGT faculty graduate admissions committee based upon plan needs, the guidelines stated herein and UHCL admission requirements will decide acceptance into the program. Once admitted, the candidate must file a CPS in the first semester of enrollment.

Core Requirements (18 Hours)

*Pending Coordinating Board Approval

The following 18 hours of core requirements are required for both the thesis and capstone option.

EMGT	5130	New Business Development	3 hours
EMGT	5230	Negotiation Strategies	3 hours
EMGT	5231	Engineering Management Planning	3 hours
*EMGT	5330	Service and Operations Management	3 hours
MGMT	5032	Human Behavior in Organizations	3 hours
MGMT	5636	Management of Technology	3 hours

Elective Requirements

*Pending Coordinating Board Approval

The master degree candidates with capstone option and thesis option must complete 9 hours of elective requirements and 6 hours of elective requirements, respectively. However, MGMT 5931 and SWEN 5230 cannot be included together.

EMGT	5131	Legal Issues in Engineering Management	3 hours
*EMGT	5331	Six-Sigma Quality	3 hours
MGMT	5931	Research Topic in Management: Project Management	3 hours
SENG	5230	Systems Engineering Economics	3 hours
SWEN	5230	Software Project Management	3 hours

Capstone Option

The Capstone enrollment is limited to candidates who have completed 18 hours of the EMGT core requirements and elective requirementsand their prerequisites. Under the capstone option, the master degreecandidates must complete 18 hours of core requirements and 9 hours of elective requirements.

EMGT

6837

Engineering Management Capstone Project

3 hours

Thesis Option

The following gives the rubric, course names, and credits for EMGT Thesis Option that consists of six (6) hours of thesis research in engineering management. The master degree candidacy must have the approval of the candidate's faculty advisor and the Dean of SCE. Under the thesis option, master degree candidates must complete 18 hours of core requirements and 6 hours of elective requirements.

EMGT

6939

Master's Thesis Research

6 hours

Software Engineering

The graduate plan in Software Engineering leads to the master of science (MS) degree. Students are best prepared for this program by having an undergraduate in Computer Science or Computer Engineering. Studies in this degree address the foundations, methodologies and tools used in the management, planning, design and engineering of software systems. By providing a careful balance between theory and practice, the Plan prepares students for key software positions in industry, government, and other institutions where software engineering has become a key activity of the larger company. The Plan requires seven core areas of software engineering to be mastered. Each of these key areas is covered by a dedicated core course. The plan also allows for further expansion into one of three areas (subplans) of software engineering: Software Project Management, Software Safety, and System Design. The Software Engineering program allows three to four electives that can be utilized to target the degree to an area of interest within software engineering. The software engineering degree is designed to prepare students for jobs such as system analyst, requirements engineering, software architecture, software project manager, or software designer.

Credit earned before acceptance.

No more than 9 hours of graduate level Software Engineering classes may be applied to the SWEN degree if taken without admission into the program. No more than 6 hours graduate credit may be transferred to the Software Engineering degree.

Candidate Plan of Study (CPS): Students accepted in the Software Engineering program must file a candidate plan of study with their assigned faculty advisor by the end of the first semester of study. The candidate plan of study details all courses the student must take to fulfill the degree requirements.

Entrance Requirements

To enter the Software Engineering plan as either a local student or distance student, a candidate must hold a bachelor's degree in computer science, computer engineering, software engineering or closely related field, must submit GRE scores of at least 1000 (verbal + quantitative), with a verbal score of 400 or higher and a GPA of 3.00 or higher. The faculty graduate admissions committee will decide acceptance into the program based upon program need, the guidelines stated herein and university admission requirements. Once admitted, the student must file a candidate plan of study (CPS) in the first semester of enrollment. Foundation courses, and other courses, that are found to be needed are added to the CPS and must be completed in or before the first year of enrollment.

Courses that may be required for Admission to Software Engineering:

Technical Writing and Intermediate Writing may be added as a requirement of admission to software engineering based on the verbal GRE score. If this requirement is added then the student will have to take these two writing courses in addition to the other courses required for the degree. If the GRE verbal is 400 or above, these additional courses will not be required.

WRIT	3035	Intermediate Writing *	3 hours
WRIT	3135	Technical Writing *	3 hours

*Required if verbal GRE < 400,

Foundation Courses Required for Entrance

Foundation courses and their prerequisites are required for entry and must be completed before enrolling in graduate SWEN courses.

CSCI	3333	Data Structures	3 hours
MATH	3331	Discrete Mathematics**	3 hours
MATH	3334	Probability and Statistics for Scientists and Engineers**	3 hours

** Math 3331 and 3334 required if quantitative GRE < 500

Core Requirements (21 Hours)

SWEN	5130	Requirements Engineering	3 hours
SWEN	5232	Software Construction	3 hours
SWEN	5233	Software Architecture	3 hours
SWEN	5234	Software Engineering Processes	3 hours
SWEN	5432	Software Engineering Life Cycle	3 hours
SWEN	5532	Software Safety	3 hours
SWEN	5534	Reuse and Reengineering	3 hours

Capstone Option (3 hours of capstone + 12 hours of electives)

SWEN 6837	Software Engineering Capstone Project**	3 hours
**Capstone enrollment is limited to students who have completed all 21 hours of the SWEN CORE and their prerequisites.
EMGT/SENG/CENG/CSCI/SWEN *technical elective	5100-6000 level	3 hours
EMGT/SENG/CENG/CSCI/SWEN *technical elective	4000-6000 level	3 hours
SWEN *technical elective	4000-6000 level	3 hours
SWEN *technical elective	5100-6000 level	3 hours

*Courses taken as electives in SWEN require permission of the faculty advisor.

Thesis Option (6 hours of thesis + 9 hours of electives)

SWEN

6939

Master's Thesis Research

6 hours

Students must form a thesis committee and prepare a thesis proposal in the semester prior to enrollment into thesis. Contact the SCE advising office for instructions.

EMGT/SENG/CENG/CSCI/SWEN *technical elective	4000-6000 level	6 hours
SWEN *technical elective	5100-6000 level	3 hours

*Courses taken as electives require permission of the faculty adviser.

Students interested in concentrating their study in a specific sub-area of software engineering such as System Design, Software Safety or Software Project Management may choose as electives those courses listed under the respective sub-plans listed below.

System Design Sub-plan

*SWEN	5132	Software Design Patterns	3 hours
*SWEN	5133	Aspect- Oriented Development	3 hours
*SWEN	5134	Service Oriented Architecture	3 hours

Software Safety Sub-plan

SENG	5330	Risk Management	3 hours
SENG	5334	Human Factors Engineering	3 hours
SWEN	5431	Testing, Validation and Verification	3 hours

Software Project Management Sub-plan

SENG	5330	Risk Management	3 hours
SWEN	5230	Software Project Management	3 hours
SWEN	4435	or
SWEN	5435	Personal Software Process

3 hours

Web Based Electives (Distance Option)

CSCI	5333	Database Management Systems
SENG	5330	Risk Management
*SWEN	5132	Software Design Patterns
*SWEN	5133	Aspect-Oriented Development
*SWEN	5134	Service Oriented Development
SWEN	5230	Software Project Management
SWEN	5430	Software Metrics
SWEN	5431	Testing, Validation and Verification
SWEN	5435	or
SWEN	4435	Personal Software Process

Some courses have a dependency structure and students should consult the Software Engineering Course Roster in this catalog for prerequisites, co-requisites of courses.

Software Engineering via Distance Education (Online)

The Software Engineering program may be taken entirely via the internet. All SWEN core courses are offered online and there are nine elective courses that are offered online. All SWEN courses and electives necessary for the degree are available via the web whereas the foundation courses are not. Foundation courses and writing courses are only offered as traditional on campus live lecture classes. These courses must be taken either at UHCL or at another university before entry into the SWEN distance option. Electives available for the SWEN degree are listed with the distance option above. For more information about the software engineering degree and the distance option see http://sce.uhcl.edu/softwareengineering.

Software Engineering Certificate

The admission requirements for the certificate program are as follows: an undergraduate degree in Computer Science, Computer Engineering or Software Engineering, and an undergraduate GPA of 3.0. (The GRE is not required for the certificate since the certificate program is considered a non-degree seeking program). A student pursuing the certificate could possibly transfer the certificate courses to the SWEN Degree after completion of the certificate. To do this the student must take the GRE, apply and be accepted to the SWEN program. The certificate cannot be pursued at the same time as the SWEN degree since students pursuing a certificate are considered non-degree seeking and therefore cannot be enrolled in a degree seeking program at the same time.

The Software Engineering certificate is designed to prepare students to address important aspects of software development including: developing the student's ability to communicate ideas; develop and manage software products; and to understand the complexities of building quality into a software product. To earn the certificate the 4-course set below must be completed within a 4 year time limit.

Certificate - Software Engineering (4 courses)

SWEN	5130	Requirements Engineering
SWEN	5232	Software Construction
SWEN	5234	Software Engineering Processes
SWEN	5432	Software Engineering Life Cycle

Systems Engineering

The graduate plan in Systems Engineering leads to a master of science (MS) degree. The plan is designed to prepare engineers who are knowledgeable in interdisciplinary systems engineering approaches and engineering management and who therefore have the full range of concurrent engineering concepts and skills needed to specify, implement and support complete systems. Such knowledge is particularly important in the evolution of systems that are critical to achieving the mission of an organization and to sustaining the safety of life, health, property and the environment. Such systems are vital to many organizations that are served by UHCL such as: aerospace, biomedical, chemical, energy, manufacturing and others. The plan consists of formal courses, laboratory work and research conducted under the guidance of a faculty advisor. Candidates can tailor their plan of study to emphasize systems engineering analysis or systems engineering management. The Web site for the Systems Engineering program is http://sce.uhcl.edu/seng

Basic Preparation

The candidates should have a bachelor's degree and be approved by the graduate admissions committee to ensure that the appropriate background knowledge base is present. This background must include, at a minimum:

CSCI	3133	Programming with C	3 hours
MATH	3334	Prob. and Statistics for Scientists and Engineers	3 hours
MATH	4131	Ordinary Differential Equations and Apps	3 hours

Candidates who do not have the required or equivalent preparation are required to take the appropriate courses before enrolling in certain graduate career courses in SENG, SWEN, CSCI and CENG. The committee recommends that candidates take CENG 5131 Engineering Applications as a preparation elective.

Core Requirements (21 Hours)

SENG	5130	Systems Engineering Processes	3 hours
SENG	5230	Systems Engineering Economics	3 hours
SENG	5231	Concurrent Engineering	3 hours
SENG	5232	Engineering Specialty Integration	3 hours
SENG	5233	Systems Engineering Analysis & Modeling	3 hours
SENG	5330	Risk Management	3 hours
SWEN	5230	Software Project Management	3 hours

Elective Options

SENG	5332	Decision Analysis for Systems Engineering	3 hours
SENG	5334	Human Factors Engineering	3 hours
SENG	5532	Adv. Decision Analysis for Systems Eng.	3 hours
MGMT	5636	Management of Technology	3 hours
MGMT	5638	Managing Technical and Professional People	3 hours
INDH	5335	Ergonomic Methods and Analysis Techniques	3 hours
INDH	6332	Safety Engineering	3 hours

These candidates may also choose elective options from the CENG, SWEN or EMGT engineering programs.

Elective Hours:

Thesis Option (6 hours of thesis + 9 hours of electives)

SENG 6939 Master's Thesis Research	6 hours
Electives in engineering, science and mathematics approved by the student's advisor	9 hours

Capstone Option (3 hours of capstone + 12 hours of electives)

SENG 6837 Systems Engineering Capstone Project	3 hours
Electives in engineering, science and mathematics approved by the student's advisor	12 hours

Systems Engineering Certificate

Students may already have a Masters degree in a related field and would benefit from a four course set in Systems Engineering basics that would help them advance in their professional career. The candidate could, after receiving a SENG certificate, apply these four courses toward the completion of the master of science degree. The candidate choosing to earn a certificate in Systems Engineering will be required to complete four courses with a 3.0 grade point average or better, based on a 4.0 system. The candidate will be given the option to pick from the following core courses they find most useful to their application:

The Systems Engineering Basics four, three hour courses are:

SENG	5130	Systems Engineering Processes	3 hours
SENG	5230	Systems Engineering Economics	3 hours
SENG	5330	Risk Management	3 hours
SENG	5332	Decision Analysis for Systems Engineering	3 hours
SENG	5231	Concurrent Engineering	3 hours
SENG	5233	Systems Engineering Analysis & Modeling	3 hours
SENG	5334	Human Factors Engineering	3 hours
INDH	5335	Ergonomic Methods and Analysis Techniques	3 hours
INDH	6332	Safety Engineering	3 hours

Division of Natural Sciences (back to top)

Biological Sciences (back to top)

Biological Sciences

The graduate plan in Biological Sciences leads to the master of science (MS) degree. Applicants for candidacy should have a bachelor's degree in Biology, although applicants with other degrees may apply if their degrees or preparation include a significant number of plan core courses in the Biological Sciences, as well as appropriate chemistry, physics and mathematics courses.

Students should have completed the basic requirements of the bachelor of science degree in Biological Sciences at UHCL or the following courses (including prerequisites or equivalents) before applying for admission:

BIOL	3431	Genetics
BIOL	4431	Biochemistry I
BIOL	4434	Comparative Animal Physiology or
BIOL	4435	Human Physiology
MATH	3038	Computation Statistics

Two of the following four courses:

BIOL	3231	Cellular Physiology
BIOL	4131	Molecular Biology
BIOL	4437	Microbiology
BIOL	4531	Ecology

A maximum of six credit hours of the 4000 level courses listed above may be applied toward the MS degree.

As a condition of admittance to the graduate program, students who fail to meet School GRE and/or GPA standards will be required to meet additional performance criteria, such as past performance in critical courses, withdrawal and drop history, letters of recommendation, personal knowledge of past performance, improvement on repeated courses, work and/or life experiences and individual faculty support as a mentor in the research laboratory.

All graduate students in the Biology program must complete a Candidate Plan of Study (CPS) with their assigned faculty advisor before they complete 9 hours of graduate credit. Courses completed past the initial 9 hours that are not on the approved CPS may not be counted toward the degree.

Graduate students who are pursuing the master's thesis option are advised to take BIOL 5530, Research Methods in Biology, in consultation with their faculty advisor early in their studies as preparation for beginning the thesis. The remaining graduate hours may be taken in related areas and will be arranged with the faculty adviser during the preparation of the CPS. At minimum, 24 of the 36 hours must be in the Biological Sciences. Students who select the non-thesis option are required to complete BIOL 6838, the capstone project and seminar course, during their last 12 hours.

Masters Degree in Biology with a Pre-Health Specialization (36 hours total)

The masters degree in Biology with a pre-health focus consists of coursework that is intended to prepare the student for medical/dental/physician assistant/allied health school curricula. The pre-health specialization coursework includes 27 hours of core courses, 3 hours of capstone course (BIOL 6838), and 6 hours of graduate electives. A thesis option is also available.

Core Coursework (27 hours):

BIOL	4432	Biochemistry II
BIOL	5131	Membrane Biology
BIOL	5132	Cell Signaling
BIOL	5332	Toxicology
BIOL	5435	Advanced Immunology
BIOL	5635	Neuroscience
BIOL	5734	Oncogenes
BIOL	5736	Bioethics
BIOL	5436	Physiological Basis of Disease
or
BIOL	5136	Physiology of Human Aging

Non-thesis option (9 hours):

Two (2) additional electives (4000 level or above), plus BIOL 6838 Research Project and Seminar

Thesis option (9 hours):

BIOL 5530 Research Methods in Biology plus six hours in BIOL 6939 Master's Thesis Research

For students selecting the non-thesis option, recommended electives include:

BIOL	4332	Histology
BIOL	4437	Cellular Physiology
BIOL	4438	Developmental Biology
BIOL	4531	Molecular Biology
BIOL	4731	Cancer Biology
BIOL	5433	Enzymology Molecular Biology
BIOL	5939	Independent Study in Biological Science

UHCL Pre-Health Advisory Committee Webpage: http://www.uhcl.edu/sce/HPAC

Information on the certificate option in Biotechnology can be found in the Undergraduate Catalog.

Biotechnology (back to top)

The graduate plan in Biotechnology leads to the master of science (M.S.) degree. In addition to satisfying admission requirements of the University and SCE (e.g., transcripts and GRE scores), applicants for the M.S. in Biotechnology program should have completed a bachelor's degree in biology or a related discipline. All applicants must submit two letters of recommendation directed to the chairperson of the admissions committee for the M.S. in Biotechnology. Upon acceptance to the M.S. in Biotechnology, a student must identify the concentration to be pursued.

Applicants should have completed the appropriate foundation course work. Applicants missing certain required courses in their undergraduate preparation, but who meet the minimum university standards for admission, may be admitted on condition that they will complete specific undergraduate foundation courses for full admission to the program. If additional coursework is required to meet prerequisites for courses in a concentration area, students may enroll in these after admittance to the program.

Courses listed as foundation courses on the CPS for either the core or concentration area will not apply to the credit hours required for the M.S. degree. Students requiring significant prerequisite or foundation coursework should anticipate an extended time commitment for earning the graduate degree.

Basic Prerequisite Requirements

Applicants must have completed the equivalent of the basic requirements for the Bachelor of Science degree in Biological Sciences, or the following courses or equivalents before applying for admission:

BIOL	3431	Genetics
BIOL	4437	Cellular Physiology
BIOL	4431	Biochemistry I
BIOL	4531	Molecular Biology
BIOL	4434, 4435 or 3134	Animal, Human or Plant Physiology
MATH	3038	Computational Statistics

In all cases above, evidence of completion of the course with a grade of "C" or better is required.

Concentration Prerequisite Requirements

The following additional prerequisite courses are required for the specific concentration chosen by the student:

Molecular Biotechnology Concentration (UHCL course or equivalent)

BIOL	4522	Molecular Biology Laboratory
BIOL	4535	Tissue Culture

Bioinformatics / Computational Biology Concentration (UHCL course or equivalent)

CSCI	3133	Programming with C
CSCI	3333	Data Structures
CSCI	3134	Software Development with Java
CSCI	3532	Advanced Data Structures and Algorithms
CSCI	3233	Object-Oriented Design and Programming
CSCI	4333	Design of Database Systems

Biotechnology Management and Marketing Concentration (UHCL course or equivalent)

**MGMT	3031	Management Theory and Practice
**MGMT	4534	Organizational Behavior
**MKTG	3031	Marketing: Creating Value for Customers

**If students have not taken MGMT 3031, MGMT 4534, and MKTG 3031 they may take MGMT 5032 and MKTG 5031 to fulfill the foundation requirements of this concentration.

A maximum of 6 credit hours of the 4000-level courses listed above may be applied toward the M.S. degree.

In all cases above, evidence of completion of the course with a grade of "C" or better is required.

Core Requirements for the M.S. Degree

The M.S. degree requires the completion of 36 hours. All core requirements and Biotechnology electives must be completed with a grade of "C" or better but GPA must be ≥ 3.0. Although the M.S. in Biotechnology does not require an internship, field experience or thesis, these options are available and students are encouraged to participate in them.

Biotechnology Core Curriculum (27 hours)

Required courses (18 hours):

BIOT	5031	Applied Biotechnology	3 hours
BIOT	5131	Advanced Methods in Biotechnology I	3 hours
BIOT	5132	Advanced Methods in Biotechnology II	3 hours
BIOT	5733	Bioinformatics	3 hours
BIOT	5736	Bioethics	3 hours
STAT	5135	Applied Statistical Methods	3 hours

Extended Coursework Option (9 hours):

Under the Extended Coursework Option, a minimum of 27 hours of Biotechnology core curriculum (including 6 hours of approved electives from any of the three concentrations and 3 hours of BIOT 6838 Research Project and Seminar), plus 9 hours of electives within their specific concentration area must be completed.

Thesis Option (9 hours):

Under the Thesis Option, a minimum of 27 hours of Biotechnology core curriculum (including 3 hours of BIOT 5530 Research Methods in Biotechnology and 6 hours of BIOT 6939 Master's Thesis Research), plus 9 hours of electives within their specific concentration area must be completed (Note: an additional 3 credit hours of BIOT 6939 may be used as a plan elective). Graduate students who select the master's thesis option are advised to take BIOT 5530, Research Methods in Biotechnology, early in their studies as preparation for beginning the thesis.

Concentration Areas and Electives in the Biotechnology Program

Molecular Biotechnology Concentration (9-15 Hours)

BIOL	5131	Membrane Biology
BIOL	5732	Advances in Molecular Biology
BIOL	5132	Cell Signaling
BIOL	5734	Oncogenes
BIOL	5332	Toxicology
BIOL	5737	Molecular Vectors
BIOL	5333	Industrial Microbiology
BIOL	5738	Gene Therapy
BIOL	5433	Enzymology
BIOL	5833	Proteomics
BIOL	5435	Advanced Immunology
BIOT	5915	Cooperative Education Work Term
BIOL	5634	Apoptosis
BIOT	5931	Research Topics in Biotechnology
BIOL	5635	Neuroscience

Bioinformatics / Computational Biology Concentration (9-15 Hours)

BIOL	5737	Molecular Vectors
CSCI	5633	Web Database Development
BIOL	5833	Proteomics
CSCI	5733	XML Application Development
CSCI	5333	Database Management Systems
CSCI	5833	Data Mining: Tools and Techniques
CSCI	5433	Object-Oriented Database Systems
BIOT	5915	Cooperative Education Work Term
CSCI	5530	Pattern Classification
BIOT	5931	Research Topics in Biotechnology
CSCI	5532	Pattern Recognition and Image Processing

Biotechnology Management and Marketing Concentration (9-15 Hours)

BAPA	5131	The Global Environment of Business
MGMT	6332	International Management
MGMT	5133	Teamwork & Leadership Skills: Theory in Practice
MKTG	5332	Executive Decisions In Marketing
MGMT	5636	Management of Technology
MKTG	5532	International Marketing Strategy
INDH	6135	Radiation Protection
MGMT	5638	Managing Technical and Professional People
BIOT	5931	Research Topics in Biotechnology

Chemistry (back to top)

The plan in Chemistry leads to the master of science (MS) degree. Graduate students enrolled in the Chemistry plan may choose from high quality content courses in all of the traditional areas of Organic, Analytical, Physical and Inorganic Chemistry, as well as in the closely related fields of Biochemistry and Environmental Chemistry. Moreover, students are encouraged to further enhance their studies by undertaking research with one of the Chemistry plan's faculty in any of these areas. In regard to such research, it should be noted that during the past nine years the Chemistry plan has received endowments from the Welch Foundation in the form of a Chemistry Departmental Research Grant. Those funds have been expended in support of the research efforts carried out by the plan's faculty during the training of students. This grant has just been renewed through the year 2011. The Chemistry plan also has an endowment from the Zeon Chemicals Company.

All chemistry courses taken at UHCL more than one year prior to being admitted to the Chemistry plan are subject to faculty review before being accepted for degree credit. Further information on the Chemistry plan is available from the Chair of Chemistry.

Chemistry

An advanced studies plan in Chemistry leads to the master of science (MS) degree. The thesis option affords students opportunities to develop research skills appropriate for terminal degrees as professional chemists or for continuation into PhD plans. The extended course work option emphasizes classroom instruction in advanced chemical sciences and is particularly appropriate for educational advancement by industry professionals and secondary school teachers.

Basic Requirements

Students seeking the MS degree in Chemistry must have completed, at minimum, the following courses with grades of "C-" or better:

General (Freshman) Chemistry I & II with laboratory	8 hours
Organic Chemistry I & II with laboratory	8 hours
Analytical Chemistry I & II with laboratory	8 hours
Physical Chemistry I & II with laboratory	8 hours
Inorganic Chemistry with laboratory	5 hours

Most of these course requirements may be met at UHCL prior to entering the graduate Chemistry plan by completing the following courses with grades of "C-" or better: CHEM 3233, CHEM 3234, CHEM 3224; CHEM 4635, CHEM 4636, CHEM 4622; CHEM 4231, CHEM 4232, CHEM 4222; CHEM 4335.

None of these courses is normally accepted for degree credit toward the hours in the graduate plan.

Core Requirements

Students must successfully complete a minimum of 18 hours of graduate career chemistry courses, 12 hours of which must be taken at UHCL. All core requirements and chemistry electives must be completed with a grade of "B-" or better. A minimum of three hours must come from each of the following:

Organic Chemistry (CHEM 5134, CHEM 5336, CHEM 5337, CHEM 5638)

Analytical Chemistry (CHEM 5133,CHEM 5636)

Physical Chemistry (CHEM 5235, CHEM 5637, CHEM 5639)

Inorganic Chemistry (CHEM 5335, CHEM 5336)

Graduate Seminar (CHEM 6731)

Extended Course Work Option

Under the extended course work option, a minimum of 30 hours of formal course work (including three hours CHEM 6731 Graduate Seminar) must be completed. In addition, students must choose an adviser and complete a total of six hours credit in the two Research Project and Seminar courses (CHEM 6837 and CHEM 6838).

Thesis Option

Under the thesis option, a minimum of 24 hours of formal course work (including three hours of CHEM 6731 Graduate Seminar) must be completed. In addition, students must complete a minimum of six hours of CHEM 6939, Master's Thesis Research. A maximum of nine hours of CHEM 6939 can be applied toward graduation requirements. Remaining course work for a total of 36 hours may come from CHEM 6838 Research Project and Seminar or additional formal courses.

Environmental Science (back to top)

The graduate plan in Environmental Science leads to the master of science (MS) degree. The plan seeks, through an interdisciplinary approach, to prepare students for opportunities in government and the private sector. Graduates of the plan may also be prepared to pursue further academic training in environmental sciences and occupational health. Students must specialize in one of the following areas: Environmental Biology, Environmental Chemistry, Environmental Geology, Industrial Hygiene or Safety.

Basic Requirements

Students seeking a master's degree must have course work preparation appropriate to their area of specialization. At least 34 hours of natural science and 6 hours of mathematics are required prior to admission. Candidates should have a "B" average (GPA: 3.0) on the last 60 hours of credit. GREs are required by all students applying for the graduate program. Scores will be evaluated by the school's admissions committee.

Students should submit a written statement to the Office of the Dean of Science and Computer Engineering specifying their educational goals and objectives as well as their intended areas of specialization, i.e., Environmental Biology, Environmental Chemistry, Environmental Geology, Industrial Hygiene or Safety. Applicants are also encouraged to submit letter(s) of recommendation as supporting documents. Basic requirement courses do not count toward the degree. These courses do, however, count toward the total hours required above. The following must be completed prior to admission into the graduate plan:

General Chemistry	2 semesters
General Physics	2 semesters
Calculus I	1 semester

The following must be completed prior to or within the first year of study:

Organic Chemistry I	1 semester
Statistics	1 semester

The master's degree requires completion of a minimum of 36 hours. The core consists of STAT 5135, ENSC 5530, and ENSC 6731 or ENSC 6838 or ENSC 6939, which must be taken in the order listed. Thesis and research project course options are available and are described below.

Thesis Option (36 Hours)

ENSC	5530	Research Methods: Environmental Science	3 hours
ENSC	6939	Master's Thesis: Environmental Science	6 hours
STAT	5135	Applied Statistical Methods	3 hours

Designated electives (maximum of 6 hours of 4000 level credit): 24 hours

Research Project Course Option (36 Hours)

ENSC	5530	Research Methods: Environmental Science	3 hours
ENSC	6838	Research Project	3 hours
		Or ENSC 6731 Graduate Seminar
STAT	5135	Applied Statistical Methods	3 hours
	Designated electives (maximum of 6 hours of 4000 level credit)		27 hours

Electives are selected in consultation with the faculty advisor and must include at least one course from three of the following areas: biology, chemistry, geology or industrial hygiene and safety. A maximum of six hours of environmental management courses may be included.

All graduate students are required to produce a major paper and present a public seminar. Prior to enrolling in ENSC 6731 or ENSC 6838, students must have a faculty advisor and an approved research topic.

Students pursuing the research project option may be advised to complete hours in independent study or internship in addition to ENSC 6838. Before enrolling in thesis, students must have a faculty thesis advisor and an approved research proposal.

Required Courses or their equivalents for the Industrial Hygiene sub-plan:

INDH	5131	Control of Occupational Hazards	3 Hours
INDH	5333	Air Pollution	3 Hours
INDH	5335	Ergonomics Methods & Analysis Techniques	3 Hours
INDH	6135	Radiation Protection	3 Hours
INDH	6232	Analytical Methods for Hazard Evaluation	3 Hours
INDH	6332	Safety Engineering	3 Hours
BIOL	5332	Toxicology	3 Hours
CHEM/GEOL		At the 4000, 5000 or 6000 levels (if applicable):
to be arranged with advisor			3 Hours

If Research Project instead of Thesis is chosen, then the student will need to have one more course to be approved by the faculty advisor.

Required Courses or their equivalents for the Safety sub-plan:

ENSC	5530	Research Methods in Environmental Science	3 Hours
INDH	5xxx	System Safety & Accident Investigation	3 Hours
INDH	5xxx	Const. & General Industry Safety	3 Hours
INDH	5131	Control of Occupational Hazards	3 Hours
INDH	5335	Ergonomic Methods & Analysis Techniques	3 Hours
INDH	6232	Analytical Methods for Hazard Evaluation	3 Hours
INDH	6332	Safety Engineering	3 Hours
STAT	5135	Applied Statistical Methods	3 Hours
BIOL/CHEM/or GEOL at the 4000, 5000 or 6000 levels (if applicable):
to be arranged with advisor			3 Hours

If Research Project rather than Thesis is chosen, then the student will need to have one more course in INDH to be approved by the faculty advisor.

Physics (back to top)

The graduate plan in Physics leads to the master of science (MS) degree at UHCL. The goal of this program is to prepare students for Ph.D. level work and advanced research in Physics and Astronomy. This program also serves to expand the knowledge base of practicing engineers. Students in this program gain better problem-solving abilities as well as increased knowledge of several aspects of Physics and Astronomy. The physics program provides students with a deeper understanding of the essential science used in many of the engineering disciplines and in the space industry.

Basic Preparation

Applicants for candidacy should have a bachelor of science (BS) degree in one of the physical sciences, mathematics or engineering disciplines. Applicants with other degrees may also apply if they meet the requirements listed below. Equivalent courses or appropriate substitutions will be determined in consultation with a faculty advisor. If background deficiencies exist, students may be required to take courses that will not apply toward the graduate degree.

Students should take the following courses (or equivalents) in preparation for the program (Note PHYS 4131 and PHYS 4132 satisfy many of these requirements):

University Physics I & II with Laboratory	8 hours
Modern Physics	3 hours
Calculus I, II	8 hours
Calculus III	3 hours
Differential Equations	3 hours
Complex Variables	3 hours
Linear Algebra	3 hours
Probability and Statistics	3 hours
Principles of Electromagnetism	3 hours
Principles of Quantum Mechanics	3 hours
Thermodynamics & Fluid Mechanics	3 hours

Core Requirements

The following 15 hours of graduate physics courses are required for both the thesis and extended course work options.

PHYS 5331 or equivalent	Electrodynamics I	3 hours
PHYS 5431 or equivalent	Classical Mechanics	3 hours
PHYS 5531 or equivalent	Mathematical Methods in Physics I	3 hours
PHYS 5631 or equivalent	Quantum Mechanics I	3 hours
PHYS 5731 or equivalent	Statistical Mechanics and Thermodynamics	3 hours

Advanced Electives

Advanced SCE courses that meet the needs of students' professional goals may be selected in consultation with a faculty advisor.

Thesis Option

Under the thesis option, a minimum of 24 hours of formal course work must be completed. In addition, students must complete a minimum of 6 hours of PHYS 6939; Master's Thesis Research. A maximum of 12 hours of PHYS 6939 can be applied toward graduation requirements. Remaining course work for a total of 36 hours may come from additional formal courses.

Non-Thesis Option

Under the non-thesis option, a minimum of 30 hours of formal course work must be completed. In addition, students must choose an advisor and complete 3 credit hours of Independent Study Research (PHYS 5739 or PHYS 5939) and 3 hours in the Research Project and Seminar Course (PHYS 6838). Students completing the sub-plan in Technical Management should complete either PHYS 5739 or PHYS 6838 as a capstone.

Sub-plan in Technical Management

A good technical manager needs both an advanced broad-based technical background and insight into how to lead a team of people from different technical disciplines. Because physics is the scientific basis of all engineering, it can satisfy much of the broad-based technical requirement for a degree training technical managers. The physics core is complemented by a combination of systems engineering and management courses in order to create a plan that provides both the technical background and the leadership training. This results in a unique new approach to training technical managers. Please note that this sub-plan can only be completed with the non-thesis option.

Systems Engineering (at least two courses): 6 hours

SENG	5230	Systems Engineering Economics	3 hours
SENG	5231	Concurrent Engineering	3 hours
SENG	5330	Risk Management	3 hours
SENG	5332	Decision Analysis for Systems Engineering	3 hours

Management (at least two courses): 6 hours

MGMT	5032	Human Behavior in Organizations	3 hours
MGMT	5133	Teamwork & Leadership Skills: Theory in Practice	3 hours
MGMT	5638	Managing Technical & Professional People	3 hours
Approved Electives: 6 hours

Approved courses in SCE (All ASTR, PHYS and SENG courses qualify) and any approved course in the School of Business.

Collaborative UHCL/UH Physics Ph.D. Program

The first program of its kind, the Collaborative UHCL\UH Physics Ph.D. Program establishes a partnership between the master's degree program at UHCL and the Ph.D. program at UH. Select faculty at UH and UHCL hold joint appointments which allow them to ensure the smooth transition of their students from the M.S. to the Ph.D. program. In addition, a Joint Admission Committee helps advise students on their transition.

Six UHCL Physics courses PHYS 5331/5311: Electrodynamics I, PHYS 5431/5411: Classical Mechanics, PHYS 5531/5511: Mathematical Methods in Physics I, PHYS 5631/5611 and 5632/5612: Quantum Mechanics I and II, and PHYS 5731/5711: Statistical Mechanics and Thermodynamics will count towards Ph.D. candidacy at UH. A candidate must earn a grade of B or better in the class and on the final exam. Students exploring this option must apply for Ph.D. candidacy through the UH/UHCL Physics Joint Admissions Committee. Students accepted into the collaborative Ph.D. program will be subject to the same requirements as other Ph.D.candidates in the UH Physics program. They will complete their Ph.D. Thesis under the advisement of a UH and UHCL faculty committee. More information on the program can be found at http:// www.uhcl.edu/sce/collaborative.

Physics Candidacy Certificate

Students completing the candidacy requirements for the Collaborative UHCL/UH Physics Ph.D. Program are eligible to receive a physics candidacy certificate. This certificate can be awarded to students independently of the Physics Master's Degree. A student pursuing a certificate has the option of switching to the Physics MS degree program at anytime during their enrollment in the certificate program and can apply all physics coursework taken towards the certificate to the MS degree. Qualified students pursuing the Physics MS degree have the option of applying for the certificate once the candidacy requirements are satisfied.