Polymer and Fiber Engineering (MS) Polymer and Fiber Engineering (PhD) Aerospace Engineering Curriculum in Aerospace Engineering...

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Samuel Ginn College of Engineering ... 3

Aerospace Engineering - MAE., MS, PhD ... 6

Aerospace Engineering - MAE ... 6

Aerospace Engineering - MS ... 6

Aerospace Engineering - PhD ... 6

Biosystems Engineering - MS, PhD ... 7

Biosystems Engineering - MS ... 7

Biosystems Engineering - PhD ... 7

Chemical Engineering - MChE, MS, PhD ... 8

Chemical Engineering - MS ... 9

Chemical Engineering - PhD ... 9

Civil Engineering - MCE, MS, PhD ... 10

Civil Engineering - MCE ... 11

Civil Engineering - MS ... 11

Civil Engineering - PhD ... 11

Computer Science and Software Engineering - MSwE, MS, PhD ... 11

Computer Science and Software Engineering - MS ... 12

Computer Science and Software Engineering - MSwE ... 12

Computer Science and Software Engineering - PhD ... 12

Electrical and Computer Engineering - MEE, MS, PhD ... 12

Electrical and Computer Engineering - MEE ... 13

Electrical and Computer Engineering - MS ... 13

Electrical and Computer Engineering - PhD ... 13

Industrial and Systems Engineering - MISE, MISE/MBA, MS, PhD ... 13

Automotive Manufacturing Systems ... 14

Industrial and Systems Engineering - MISE ... 14

Industrial and Systems Engineering - MS ... 15

Industrial and Systems Engineering - PhD ... 15

Occupational Safety & Ergonomics ... 15

Materials Engineering - MMtlE, MS, PhD ... 15

Materials Engineering (MS) ... 16

Materials Engineering - MMtlE ... 16

Materials Engineering - PhD ... 16

Mechanical Engineering - MS, MME, PhD ... 17

Mechanical Engineering - MS ... 17

Mechanical Engineering - PhD ... 18

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Polymer and Fiber Engineering (MS) ... 18

Polymer and Fiber Engineering (PhD) ... 18

Aerospace Engineering ... 19

Curriculum in Aerospace Engineering ... 19

Biosystems Engineering ... 20

Curriculum in Biosystem Engineering (Forest Engineering option) ... 21

Curriculum in Biosystems Engineering ... 22

Curriculum in Biosystems Engineering (Ecological Engineering option) ... 24

Chemical Engineering ... 25

Curriculum in Chemical Engineering ... 27

Civil Engineering ... 29

Curriculum in Civil Engineering ... 29

Computer Science and Software Engineering ... 30

Computer Science Minor ... 31

Curriculum in Computer Science ... 31

Curriculum in Software Engineering ... 32

Information Technology Minor ... 33

Electrical and Computer Engineering ... 34

Curriculum in Electrical Engineering ... 34

Curriculum in Electrical Engineering (Computer Engineering Option) ... 36

Joint Wireless Engineering-Hardware Option ... 37

Joint Wireless Engineering-Software Option ... 38

Industrial and Systems Engineering ... 39

Automotive Engineering and Manufacturing Minor ... 40

Business-Engineering-Technology ... 41

Curriculum in Industrial and Systems Engineering ... 41

Nuclear Power Generation Systems Minor ... 42

Mechanical Engineering ... 43

Curriculum in Materials Engineering ... 43

Curriculum in Mechanical Engineering ... 44

Material Engineering Minor ... 46

Materials Science Minor ... 46

Tribology Minor ... 47

Polymer and Fiber Engineering ... 47

Curriculum in Polymer and Fiber Engineering (Fiber Option) ... 48

Curriculum in Polymer and Fiber Engineering (Polymer Option) ... 49

Wireless Engineering ... 51

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Samuel Ginn College of Engineering

CHRIS ROBERTS, Dean

STEVE DUKE, Associate Dean JEFFREY FERGUS, Associate Dean RALPH H. ZEE, Associate Dean ROBERT KARCHER, Assistant Dean

ENGINEERS ARE FACED with worldwide problems and expectations awesome in responsibility, yet exciting as professional challenges. These range from the extremes of interplanetary exploration through earth orbiting systems to the problems arising from our population explosion: energy, better productivity, housing, transportation and environmental issues.

As a renewed appreciation develops for the contributions of science and technology, engineering leaders are calling for engineers who are better equipped to tackle the specific, technical problems of the future. They also are calling for engineers who by breadth of education and understanding of other disciplines can convince others of the role of engineers not only in technical matters but in policy decisions to ensure the use of technology to benefit mankind.

Engineering education at Auburn provides in a four-year curriculum both the technical knowledge and the broad general education necessary to equip engineers for their problem-solving challenges. Centered on mathematics and the physical sciences, the curricula also stress the importance of social sciences, humanities and communication skills. Auburn’s engineering programs enable individuals to develop their natural talents and provide knowledge, skills and understanding that will help them to find their places in society as well as in their vocations.

Admission

Freshmen eligibility is determined by the Office of Enrollment Services. However, since the requirements for engineering education necessitate high school preparatory work of high intellectual quality and of considerable breadth, the following program is

recommended as minimum preparation: English, four units; mathematics (including algebra, geometry, trigonometry, and analytical geometry), four units; chemistry, one unit; history, literature, social science, two or three units. Physics and foreign languages are recommended but not required.

Transfers from other institutions must apply through the Office of Enrollment Services. The exact placement of these students can be determined only upon review of their transcripts by the Samuel Ginn College of Engineering. See Admission of Transfer Students for complete requirements.

The college allows credit for courses completed with satisfactory grades provided the courses correspond in time and content to courses offered at Auburn. Courses that are taught at the 3000-level or higher at Auburn are generally not transferable from junior colleges.

Many courses required by the Samuel Ginn College of Engineering are highly specialized in their content and potential transfer students need to select courses with care. Therefore, to ensure maximum transferability of credits, students are encouraged to contact the College as soon as possible about acceptable credits.

Transfers from on-campus must be approved by the Samuel Ginn College of Engineering and the admissions committee of the chosen curriculum. The requirements for a student to advance from the pre-engineering program into an engineering curriculum are subsequently described in the “Scholastic Requirements” section.

Programs

Pre-Engineering

The Pre-Engineering Program consists of a freshman program of studies to prepare students for curricula in the Samuel Ginn College of Engineering. It also provides academic and career counseling to assist students in determining the curriculum that best fulfills their personal and educational objectives.

Professional Programs

The following undergraduate engineering programs are accredited by the Engineering Accreditation Commission of ABET, http:// www.abet.org: Aerospace Engineering, Biosystems Engineering, Chemical Engineering, Civil Engineering, Electrical Engineering,

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4 Samuel Ginn College of Engineering

Industrial and Systems Engineering, Materials Engineering, Mechanical Engineering, Polymer and Fiber Engineering, Software Engineering, and Wireless Engineering.

The undergraduate Computer Science program is accredited by the Computing Accreditation Commission of ABET, http:// www.abet.org.

These curricula are designed to meet the educational requirements of the engineering professions. The program in the fundamental sciences of mathematics, chemistry and physics is followed by a study of basic engineering sciences. Specialized or departmental courses are taken in the third and fourth years. Flexibility is provided in all degree programs through electives so that the individual may emphasize areas of personal interest.

An ecological engineering option and a forest engineering option are available under the biosystems engineering program. The forest engineering option is offered jointly by the Department of Biosystems Engineering and the School of Forestry and Wildlife Sciences. The environmental science curriculum is offered jointly by the College of Agriculture, the College of Engineering, and the College of Sciences and Mathematics.

Graduate

The Samuel Ginn College of Engineering offers the MS and PhD degrees in aerospace, biosystems, chemical, civil, computer science and software engineering, electrical and computer, industrial and systems, materials and mechanical engineering and polymer and fiber engineering. The following professional degrees are offered as well: master of aerospace engineering, master of chemical engineering, master of civil engineering, master of electrical and computer engineering, master of industrial and systems engineering, master of materials engineering, master of mechanical engineering, master of polymer and fiber engineering, and master of software engineering. The college also offers a dual-degree master of industrial and systems engineering and master of business administration.

Cooperative Education

The Cooperative Education Program is offered in all curricula of the Samuel Ginn College of Engineering. Refer to the program information in the Special Academic Opportunities section of the Bulletin. For additional information, contact: Cooperative Education (Co-Op) Program, 104 Ramsay Hall, Auburn, AL, 36849-5123. Telephone: (334) 844-5410. Website: www.auburn.edu/co-op.

Continuing Education

Business and Engineering Continuing Education extends the resources of the Samuel Ginn College of Engineering to the people, businesses and industries of the state. Programs in this service are technical assistance, short courses, conferences, workshops and seminars. For more information, contact: Director, Business and Engineering Continuing Education, 217 Ramsay Hall, Auburn, AL 36849.

Video-Based Off-Campus Courses

The college offers graduate-level courses for credit and non-credit to off-campus students through its Graduate Outreach Program. Graduate-level courses are recorded in the classroom on the Auburn campus and delivered to off-campus students via streaming video. Students enrolled in the program are required to do the same homework assignments and take the same exams as the on-campus students enrolled in the course. For information on admission to the program, fees, course offerings and other particulars, write to the Graduate Outreach Program, 202 Ramsay Hall, Auburn, AL 36849 or call (334) 844-5300.

Scholastic Requirements

Pre-Engineering students are transferred to the curriculum of their choice in the Samuel Ginn College of Engineering upon meeting the following requirements:

Complete all appropriate freshman courses;

Earn an overall grade-point average of 2.2 on all required and approved elective course work.

Recommendation by the Curriculum Admissions Committee. A student who has not met the above criteria after four resident semesters is dropped from the college. Junior standing will not be granted to any student in the Pre-Engineering Program.

Degree Requirements

To earn the bachelor’s degree in the Samuel Ginn College of Engineering, students must complete the subjects in the curriculum, have a minimum grade-point average of 2.0 in all work attempted at Auburn University and have a cumulative grade-point average of 2.0 on courses passed in the major at Auburn. The major is defined as all course work shown in bold print on the relevant curriculum model. It is the student’s responsibility to keep informed of course requirements and scheduling. Failure to do so may jeopardize graduation.

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Military Science

All curricula in the Samuel Ginn College of Engineering permit the use of six hours of basic or advanced ROTC courses passed at Auburn University. For the options, see the specific curriculum. For programs that do not have sufficient electives, credit will be determined on an individual basis. ROTC courses cannot be substituted for any university core or ABET-required courses.

Majors

• Aerospace Engineering (p. 19) • Biosystems Engineering (p. 22)

• Biosystems Engineering (Ecological Engineering option) (p. 24) • Biosystems Engineering (Forest Engineering option) (p. 21) • Chemical Engineering (p. 27)

• Civil Engineering (p. 29) • Computer Science (p. 31)

• Industrial and Systems Engineering (p. 41) • Materials Engineering (p. 43)

• Mechanical Engineering (p. 44)

• Polymer and Fiber Engineering (Fiber Option) (p. 48) • Polymer and Fiber Engineering (Polymer Option) (p. 49) • Software Engineering (p. 32)

• Electrical Engineering (p. 34)

• Electrical Engineering (Computer Engineering Option) (p. 36) • Wireless Engineering (Hardware Option) (p. 37)

• Wireless Engineering (Software Option) (p. 38)

Minors

• Automotive Engineering and Manufacturing (p. 40) • Business-Engineering-Technology (p. 41)

• Computer Science (p. 31) • Information Technology (p. 33) • Materials Engineering (p. 46) • Materials Science (p. 46)

• Nuclear Power Generation Systems (p. 42) • Tribology (p. 47)

Program

• Aerospace Engineering - MAE., MS, PhD (p. 6) • Biosystems Engineering - MS, PhD (p. 7) • Chemical Engineering - MChE, MS, PhD (p. 8) • Civil Engineering - MCE, MS, PhD (p. 10)

• Computer Science and Software Engineering - MSwE, MS, PhD (p. 11) • Electrical and Computer Engineering - MEE, MS, PhD (p. 12)

• Industrial and Systems Engineering - MISE, MISE/MBA, MS, PhD (p. 13) • Materials Engineering - MMtlE, MS, PhD (p. 15)

• Mechanical Engineering - MS, PhD (p. 17) • Polymer and Fiber Engineering - MS, PhD (p. 18)

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6 Aerospace Engineering - MAE., MS, PhD

Aerospace Engineering - MAE., MS, PhD

Program Degrees:

• Aerospace Engineering (MAE) (p. 6) • Aerospace Engineering(MS) (p. 6) • Aerospace Engineering (PhD) (p. 6)

Graduate study in aerospace engineering leads to the degrees of master of science, master of aerospace engineering and the doctor of philosophy. The graduate program prepares students for careers in the aerospace industry, in government laboratories and in academia. Studies for the PhD also are designed to produce research scholars.

Applicants should have a bachelor’s degree in aerospace engineering or its equivalent from an institution of recognized standing, plus satisfactory GRE scores. Degrees in mathematics, physics and certain other engineering disciplines may also be appropriate for entrance into the graduate program. Applications must be approved by the department’s committee on graduate study.

For the master of science, the student must complete an approved program of at least 30 credit hours in aerospace engineering or closely related supporting subjects at the 6000-level or above. The master of science degree requirements include the completion of a thesis under the supervision of a major professor and an advisory committee.

The master of aerospace engineering is a non-thesis degree for which the student must complete an approved program of at least 33 hours of course work at the 6000-level or above. A suitable project in aerospace engineering, culminating in a final written report approved by the student’s advisory committee, may be substituted for three credit hours of course work. An oral presentation is also required for the MAE degree.

For both the MS and MAE degrees, at least half of the required credit hours must be completed in aerospace engineering courses.

For the doctor of philosophy degree, the student must complete a minimum of 60 credit hours beyond the bachelor’s degree. A plan of study will be arranged on an individual basis and students may elect to specialize in the general areas of aerodynamics, computational fluid dynamics, control theory, flight dynamics, orbital mechanics, propulsion, structures or structural dynamics. A written qualifying examination and a general doctoral examination, with both written and oral parts, are required of all doctoral candidates. An oral defense of the doctoral dissertation is also required of each student.

There is no language requirement for the master’s or PhD degrees.

Aerospace Engineering - MAE

Aerospace Engineering - (MAE)

Select 18 Credits in AERO Electives 6000-8999 18

Select 15 Credits in Graduate Level Courses 15

Total Hours 33

Aerospace Engineering (Distance) - MAE

Aerospace Engineering - MS

Aerospace Engineering (MS)

AERO7990 Research and Thesis 6

Select 9 Credits in All Electives 6000-8999 9

Select 15 Credits in Graduate Level Courses 15

Total Hours 30

Aerospace Engineering - PhD

Aerospace Engineering (PhD)

AERO8990 Research And Dissertation 10

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Select 20 Credits in Committee Approved Graduate Level Courses (6000 – 8999) 20 Total Hours 60

Biosystems Engineering - MS, PhD

Degree Programs:

• Biosystems Engineering - MS (p. 7) • Biosystems Engineering -PhD (p. 7)

Graduate study in Biosystems Engineering leads to master of science (thesis, non-thesis) or doctor of philosophy degrees. Instruction, research training, and experience are available in various specialized fields such as ecological engineering; bioenergy and bioproducts engineering; food engineering; biological process engineering; biosystems automation and off-highway vehicle engineering. Applicants are expected to have earned a baccalaureate degree in biosystems engineering or a closely related area. All applicants should provide a written statement of purpose for their graduate study, three letters of reference, and all other data required by Auburn University. Additional details about the requirements, assistantships, and policies for graduate study in the Department of Biosystems Engineering are available atwww.eng.auburn.edu/bio.

Biosystems Engineering - MS

The MS (thesis option) in Biosystems Engineering requires a minimum of 30 semester credit hours of graduate course work that includes up to 6 credit hours of thesis research. After completion of research, candidates for the MS thesis option must successfully defend the thesis. The specific requirement for all MS (thesis option) are:

BSEN7990 Research and Thesis 6

Select 9 Credits in BSEN 6000-8999 * 9

Select 9 Credits of Other Engineering Courses (@ 6000-8999) * 9

Select 6 Credits of Other Courses (@ 6000-8999) * 6

Total Hours 30

* Specific courses are approved by student advisory committee

TheMS (non-thesis option) in Biosystems Engineering is offered to those that desire in-depth knowledge in Biosystems Engineering typically needed for an engineering consulting job. A minimum of 30 semester credit hours of graduate course work is required for this option.

Biosystems Engineering Non-Thesis (MS)

Select 12 credits in BSEN 6000-8999 * 12

Select 6 credits of Other Engineering Courses (@ 6000 -8999) * 6

Select 12 Credits of Other Courses @ 6000-8999 * 12

Total Hours 30

The department also offers an accelerated bachelors/masters (ABM) program in Biosystems Engineering. Interested students should contact the department.

Biosystems Engineering - PhD

The Ph.D. in Biosystems Engineering requires a minimum of 60 semester hours of graduate-level course work beyond the bachelor’s degree. The total number of credit hours that may be transferred from another accredited institution toward a doctoral degree must be less than 50 percent of the credit hours listed on the Plan of Study. Students must take a qualifying examination (written and oral) administered by the student’s advisory committee that tests the student’s knowledge and competence in the proposed research area and in the general field of biosystems engineering. The student advances to Ph.D. candidacy after the successful completion of the qualifying examination. The PhD student will conduct independent research and prepare a dissertation. After completion of the dissertation, the student must pass a final oral examination defending his/her dissertation.

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8 Chemical Engineering - MS, PhD

BSEN8990 Research and Dissertation 10

Select 30 Credits of Engineering Courses (@ 6000-8999) * 30

Select 20 Credits of Other Courses (@ 6000-8999) * 20

Total Hours 60

Chemical Engineering - MS, PhD

Program Degrees:

• Chemical Engineering - MS (p. 9) • Chemical Engineering -PhD (p. 9)

The Chemical Engineering Department offers graduate programs leading to the degrees of master of science and doctor of philosophy. Specialized courses and research training are provided in a wide variety of specialties within chemical engineering or related

interdisciplinary areas. Some of these specialties include: surface science, biochemical engineering, catalysis, pulp and paper engineering, environmental engineering, waste conversion, computer-aided process design and simulation, novel bioseparations systems, chemical kinetics and reactor design, biomedical engineering, process control and optimization, thermodynamics, advanced energy research, mass and energy transfer, electrochemical engineering, polymer engineering, interfacial phenomena, process synthesis, material science, nanotechnology, and space science. Additionally, individualized interdisciplinary programs which cross the traditional departmental boundaries are encouraged. These may include collaborative work in chemistry, engineering disciplines, physics, mathematics, agriculture, forestry, biology, microbiology, genetics and health sciences or other areas.

The applicant must hold a bachelor’s degree or its equivalent from an institution of recognized standing and must have the pre-requisite undergraduate experience in areas of study relevant to the proposed graduate program. The General Test of the Graduate Record Examination (GRE) is required. If the applicant’s undergraduate degree is other than chemical engineering, an individualized plan of study will be developed to impart the critical skills inherent in the bachelor’s chemical engineering program. All applicants will be evaluated on an individual basis by the Chemical Engineering Graduate Committee. The admissions committee will evaluate the undergraduate (and graduate) record, GRE scores, letters of recommendation and any experience in research. Non-core, non-duplicating, “A” grade graduate courses from another university are eligible as determined by the Graduate Program Officer for transfer credit (maximum of 6 credit hours for Masters, 12 credit hours for PhD)

The master of science may be earned under a thesis or non-thesis option. There is not a language requirement for either option. For both options, a total of 30 semester hours of work is necessary and at least 21 hours must be in chemical engineering (CHEN). A total of 12 hours must be taken at the 7000 level or higher, the remaining 18 hours must be at the 6000 level or higher.The following core courses must be taken for a total of 9 hours:

CHEN7100 Transport Phenomena 3

CHEN7200 Chemical Engineering Thermodynamics 3

CHEN7250 Chemical Reaction Engineering 3

Total Hours 9

Students pursing a MS with thesis degree should enroll in CHEN 7950 Graduate Seminar each semester of enrollment. These students may include six (6) hours of research and thesis as part of the 30 hours. After completion of the thesis, the student must pass a final oral examination defending the thesis. The non-thesis MS degree option does not have a residency, seminar, research or final oral exam requirement. The non-thesis degree can be earned entirely through the Engineering Online Graduate Program.

The doctor of philosophy provides for advanced course work and emphasizes original, creative research. A dissertation embodying the results of this research represents the major portion of the requirements for this degree. A minimum of 60 semester hours of graduate work past the bachelor’s degree is necessary. Each student may include 10 hours of research and dissertation as part of the 60 hours. Four calendar years beyond the bachelor’s degree or three past the master’s degree usually are needed to complete the PhD. There are four (4) core graduate courses for a total of 12 credit hours:

CHEN7110 Chemical Engineering Analysis and Advanced Transport Phenomena 3

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Total Hours 12

Additional 18 credit hours of chemical engineering (minimum 9 credit hours) and/or other elective courses at 6000 level or higher is required. The remaining 30 credit hours are composed of research and dissertation (minimum 10 credit hours), formal courses (6000 level or higher), and graduate seminar.

The General Doctoral Examination consists of two parts, the “PhD Qualifying Examination” and the “PhD Preliminary Oral Examination”. The PhD Qualifying Examination will be successfully fulfilled by earning a B or higher in each of the four (4) core graduate courses above.

At the PhD Preliminary Oral Examination, the student will present to their Faculty Research Advisory Committee a thorough description and comprehensive discussion of his/her proposed dissertation research. Successful completion of the Preliminary Oral Examination requires unanimous approval of the student’s Faculty Research Advisory Committee. Upon successful completion of the PhD Qualifying and Preliminary Oral Examinations, the student advances to candidacy. After completion of the dissertation, the student must pass a final oral examination defending the dissertation.

There is no language requirement for the PhD.

Chemical Engineering - MS

The master of science may be earned under a thesis or non-thesis option. There is not a language requirement for either option. For both options, a total of 30 semester hours of work is necessary and at least 21 hours must be in chemical engineering (CHEN). A total of 12 hours must be taken at the 7000 level or higher, the remaining 18 hours must be at the 6000 level or higher.There are three (3) core courses that must be taken for a total of 9 hours:

Select 3 Credits in @ CHEN 7000-8999 3

Select 9 Credits in @ CHEN 6000-8999 9

Select 9 Credits in @ 6000-8999 9

Total Hours 30

Students pursing a MS with thesis degree should enroll in CHEN 7950 Graduate Seminar each semester of enrollment. These students may include six (6) hours of CHEN 7990 Research and Thesis as part of the 30 hours. After completion of the thesis, the student must pass a final oral examination defending the thesis. The non-thesis MS degree option does not have a residency, seminar, research or final oral exam requirement. The non-thesis degree can be earned entirely through the Engineering Online Graduate Program.

Chemical Engineering - PhD

The doctor of philosophy provides for advanced course work and emphasizes original, creative research. A dissertation embodying the results of this research represents the major portion of the requirements for this degree. A minimum of 60 semester hours of graduate work past the bachelor’s degree is necessary. Each student may include 10 hours of research and dissertation as part of the 60 hours. Four calendar years beyond the bachelor’s degree or three past the master’s degree usually are needed to complete the PhD. There are four (4) core graduate courses for a total of 12 credit hours:

CHEN7110 Chemical Engineering Analysis and Advanced Transport Phenomena 3

CHEN8990 Research and Dissertation 10

Select 9 Credits in CHEN 6000-8999 9

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10 Civil Engineering - MCE, MS, PhD

Additional 18 credit hours of chemical engineering (minimum 9 credit hours) and/or other elective courses at 6000 level or higher is required. The remaining 30 credit hours are composed of CHEN 8990 Research and Dissertation (minimum 10 credit hours), formal courses (6000 level or higher), and graduate seminar.

The General Doctoral Examination consists of two parts, the “PhD Qualifying Examination” and the “PhD Preliminary Oral Examination”. The PhD Qualifying Examination will be successfully fulfilled by earning a B or higher in each of the four (4) core graduate courses above.

At the PhD Preliminary Oral Examination, the student will present to their Faculty Research Advisory Committee a thorough description and comprehensive discussion of his/her proposed dissertation research. Successful completion of the Preliminary Oral Examination requires unanimous approval of the student’s Faculty Research Advisory Committee. Upon successful completion of the PhD Qualifying and Preliminary Oral Examinations, the student advances to candidacy. After completion of the dissertation, the student must pass a final oral examination defending the dissertation.

There is no language requirement for the PhD.

Civil Engineering - MCE, MS, PhD

Degree Programs:

• Civil Engineering - MCE (p. 11) • Civil Engineering - MS (p. 11) • Civil Engineering -PhD (p. 11)

The Department of Civil Engineering offers graduate-level instruction and research programs leading to the degrees of Master of Civil Engineering (MCE), Master of Science (MS) and Doctor of Philosophy (PhD). These programs provide qualified students opportunities for advanced training and specialization and enable them to gain experience conducting engineering research and interpret and communicate their findings. The department offers programs in Construction Engineering and Management, Environmental Engineering, Geotechnical Engineering, Hydraulics/Hydrology, Pavements and Materials, Structural Engineering, and Transportation Engineering. Coursework may be taken in supportive disciplines including applied statistics, building science, computer science or mathematics, with sufficient justification.

Applicants for the graduate programs must have an earned baccalaureate degree (BCE, BS or BSCE) in Civil Engineering or a closely related area and must have completed such formal training as to warrant advanced study in the major and minor fields. Applicants from related disciplines may be required to take prerequisites, as determined by the relevant specialty program and the department. There is no formal foreign language requirement.

All MS candidates must write a thesis. At least 30 semester hours of graduate-level course credit must be completed satisfactorily. At least six of the 30 hours must be in CIVL7990 and at least 24 hours must be in graduate course work other than CIVL7990. Candidates must pass a comprehensive examination covering the coursework, research and thesis.

Admission requirements for MCE are the same as those for MS. MCE students must take at least 30 semester hours of graduate-level courses, which may include three-semester hours ofCIVL7980. A plan of study must be approved by the student's advisory committee.

PhD applicants must have earned a BS or master’s degree in Civil Engineering or a related area. Applicants from other related disciplines may be required to take prerequisites determined by the relevant specialty program and the department.

The PhD is conferred in recognition of mastery of a specific field of knowledge and a contribution to that engineering discipline through the doctoral dissertation. The degree is a research degree, requiring not only completion of certain technical requirements but proof of the candidate’s ability to work independently in an engineering research environment.

To be qualified as a PhD candidate, an admitted doctoral student must pass a written comprehensive examination and a follow-up oral critique administered by the student’s advisory committee. The examination may not be taken sooner than one year after the student begins doctoral course work. Additional academic preparation may be prescribed by the advisory committee to strengthen deficiencies identified by the examination, or the student may be suspended from the program. One retake may be permitted after the student has completed the prescribed preparation. Upon successful completion of the examination, the student becomes a candidate for the PhD.

After successfully completing the comprehensive examination, the doctoral candidate will defend the proposed dissertation topic, which must represent a significant contribution to the state-of-the-art. This defense may be included in the oral critique of the comprehensive examination if the advisory committee agrees. Once the committee approves the research topic, the doctoral candidate may proceed

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with the research and dissertation. When it is completed, the candidate defends the completed dissertation before the advisory committee and the outside reader appointed by the Graduate School.

Civil Engineering - MCE

Civil Engineering (MCE)

30 hours of approved 6000-7980 graduate level courses 30

Total Hours 30

Civil Engineering (Distance MCE)

30 hours of approved 6006-7986 graduate level courses 30

Total Hours 30

Civil Engineering - MS

Civil Engineering (MS)

CIVL7990 Research and Thesis 6

24 hours in approved graduate level courses 6000-7970 (Electives) 24

Total Hours 30

Civil Engineering - PhD

Civil Engineering (PhD)

CIVL8990 Research and Dissertation 10

30 credits in approved graded (e.g. A, B, C) graduate level courses 6000-7970 30

20 credits in approved graduate level courses 6000-8990 (Electives) 20

Total Hours 60

Computer Science and Software Engineering - MSwE, MS, PhD

Degree Programs:

• Computer Science and Software Engineering - MSwE (p. 12) • Computer Science and Software Engineering - MS (p. 12) • Computer Science and Software Engineering - PhD (p. 12)

Graduate study in the Department of Computer Science and Software Engineering (COMP) leads to the non-thesis master of software engineering (MSwE) or research oriented master of science (MS) and doctor of philosophy (PhD) degrees in computer science and software engineering. All applications are reviewed by the COMP Graduate Admissions Committee.

To enter the MS or the MSwE, the student must hold a bachelor’s degree or its equivalent from an institution of recognized standing. The student also must have the pre-requisite undergraduate experience in areas of computer science and/or software engineering. If the student has deficiencies in the pre-requisites, he or she will be required to take appropriate undergraduate courses. All applicants must submit Graduate Record Examination scores for the general test.

The MS program requires 30 semester credit hours, including six credit hours for research and thesis. The MSwE program requires 33 semester credit hours, including three credit hours for the software engineering design project. There is no language requirement.

For the PhD program, the applicant must hold a master’s degree or have successfully completed a minimum of one academic year of graduate study, from an institution of recognized standing in an area related to the proposed doctoral study. All applicants must submit GRE scores for the general test. The student will take a written qualifying examination soon after gaining admission to the program. Additional examinations, as described in the general Graduate School requirements, are given throughout the program, culminating with the defense of the dissertation. There is no language requirement for the PhD The program typically includes at least one academic year of course work and one year of research beyond the master’s level. The PhD program requires a minimum of 66 semester credit hours of course work beyond the bachelor’s level, including 18 hours of research and dissertation.

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12 Computer Science and Software Engineering - MS

Computer Science and Software Engineering - MS

Computer Science and Software Engineering (MS)

COMP7990 Research and Thesis 6

Select 18 Credits in COMP 6000-8999 18

Total Hours 30

Computer Science and Software Engineering - MSwE

Computer Science and Software Engineering (MSwE)

COMP7980 Master of Software Engineering Design Project 3

Total Hours 33

Computer Science and Software Engineering (Distance) - MSwE

COMP7980 Master of Software Engineering Design Project 3

Total Hours 33

Computer Science and Software Engineering - PhD

PhD

Research and Dissertation: 18

COMP8990 Research and Dissertation

Total Hours 66

Electrical and Computer Engineering - MEE, MS, PhD

Degree Program:

• Electrical and Computer Engineering - MEE (p. 13) • Electrical and Computer Engineering - MS (p. 13) • Electrical and Computer Engineering -PhD (p. 13)

Electrical and Computer Engineering (ECE) offers graduate programs of instruction and research leading to master and doctoral degrees. Instruction is offered and research facilities are available to support graduate study in control systems & robotics, digital signal processing and communications, wireless engineering, electromagnetics modeling and analysis, microelectronics & microelectromechanical systems (MEMS), magnetic resonance imaging (MRI), power systems, digital systems, and computer engineering. Additionally, individualized programs that cross the traditional boundaries of engineering, mathematics and the sciences can be accommodated.

For admission at the master’s level, the applicant must hold a bachelor’s degree or its equivalent from an institution of recognized standing. Master’s degree programs are available to graduates of engineering curricula and, in cases of exceptional academic credentials, to graduates of mathematics and science curricula.

An applicant for admission to the PhD program must hold a master’s degree, or have taken a minimum of one academic year of graduate study, from an institution of recognized standing in an area of study related to the proposed doctoral work. An applicant who holds a bachelor’s degree in electrical or computer engineering and has exceptional academic credentials may apply for direct admission to the PhD program.

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All applicants must submit Graduate Record Examination scores for the General Test, three recommendation letters, a statement of purpose, and a resume. International applicants must also submit scores for either the TOEFL or IELTS exam.

Applications for admission are reviewed by the departmental graduate faculty. Decisions are based upon the applicant’s potential for success in advanced-level study as indicated by letters of reference, GRE scores and previous academic achievement.

The MS degree program (the thesis option) requires a minimum of 30 semester hours of work, including 4 to 6 semester hours of research and thesis. MS students must spend at least one semester of full-time study in residence and pass a final examination on the thesis. The MEE degree program (thecoursework-only option) requires 33 semester hours of coursework, including at least 18 semester hours of ECE courses.Both masters programs must include courses in at least three of the major research areas in ECE andno more than 3 semester hours of independent study.

Students admitted to the doctoral program will take a written qualifying examination soon after entering, covering fundamental undergraduate material in ECE. Additional examinations are given throughout the program. The program generally consists of a minimum of 60 semester hours of course work beyond the bachelor’s level, including at least 10 hours of research and dissertation. A minor of at least 9 semester hours in a closely related field outside of the major area of study, either within or outside of ECE, is required.

Electrical and Computer Engineering - MEE

Electrical and Computer Engineering (MEE)

Select 21 Credits at 6000-8999 in the Major Area 21

Select 12 Credits at 6000-8999 (Electives) 12

Total Hours 33

Electrical and Computer Engineering - Distance (MEE)

Total Hours 33

Electrical and Computer Engineering - MS

Electrical and Computer Engineering (MS)

ELEC7990 Research and Thesis 4

Total Hours 30

Electrical and Computer Engineering - PhD

Electrical and Computer Engineering (PhD)

ELEC8990 Research and Dissertation 10

Select 30 Credits (Graded) at 6000-8999 30

Select 20 Credits (Graded or Ungraded) at 6000-8999 20

Total Hours 60

Industrial and Systems Engineering - MISE, MISE/MBA, MS, PhD

Degree Programs:

• Industrial and Systems Engineering - MISE (p. 14) • Industrial and Systems Engineering - MS (p. 15) • Industrial and Systems Engineering -PhD (p. 15)

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14 Automotive Manufacturing Systems

Graduate Certificate:

• Automotive Manufacturing Systems (p. 14) • Occupational Safety & Ergonomics (p. 15)

The department offers the master of industrial and systems engineering, a joint program leading to both MISE and MBA degrees, the master of science and the doctor of philosophy. These programs are for students with undergraduate degrees in industrial engineering, other engineering disciplines, mathematics and sciences.

All applicants must submit Graduate Record Examination scores for the General Test except MISE/MBA applicants who may instead submit Graduate Management Admission Test scores.

Both the MISE and MS programs require a total of 31 hours of course work, which includes a one semester hour seminar class. The MISE is oriented toward professional practice. MISE students must take 9 semester hours of core courses, 12 hours of INSY electives and 9 hours of INSY-related electives. The MS has the same course requirements and hours except that 4-6 hours of thesis may be substituted for the same hours of elective courses.

The MISE/MBAis a 55-hour program administered jointly by ISE and the MBA program. The program saves the student six hours of course work over completing both degrees separately. For the MISE portion of the dual degree, the program consists of 9 semester hours of core courses, 12 hours of INSY electives and 6 hours of INSY-related electives. One semester hour of INSY graduate seminar is also required. For the MBA portion of the dual degree, there are seven core (BUSI) classes for 21 semester hours and an additional 2 classes of BUSI or related electives for six hours. For the MBA, students without two years full time work experience are required to do a 3-credit hour internship in place of one of the 3-hour BUSI or related electives. Students must apply separately to each program (MISE and MBA), but only have to pay one application fee.

Researchinvolvement is the dominant element in the doctoral program. It provides a quality educational experience for selected individuals whose records indicate excellent potential not only for superior performance in course work, but also for the research and ensuing dissertation which is an original and scholarly contribution to the field. The PhD program requires at least 60 semester hours of coursework beyond the bachelors, including 9 semester hours of core courses. A minimum of one hour of graduate seminar is also required. The student must demonstrate a high level of proficiency in a specific area of industrial and systems engineering as well as a competence in the entire field. The degree usually requires at least one calendar year of research.

Automotive Manufacturing Systems

Automotive Manufacturing Systems (Graduate Certificate)

INSY 6330/6336 Data Based Decision Making Using Six Sigma 3

INSY 6800/6806 Lean Production 3

INSY 6830/6836 Vehicle Technology and Trends 3

Select 3 Credits of the following: 3

INSY 6840/6846 Control of the Manufacturing Floor and Processes

INSY 6860/6866 Automotive Manufacturing Systems

Total Hours 12

Industrial and Systems Engineering - MISE

MISE

INSY 6600/6606 Manufacturing and Production Economics 3

INSY 7300/7306 Advanced Engineering Statistics I 3

INSY 7420/7426 Linear Programming and Network Flows 3

INSY 7950/7956 Seminar 1

Select 12 Credits in INSY 6000-8999 12

Select 9 Credits in INSY 6000-8999 or INSY-related @6000-8999 (Electives) 9

Total Hours 31

Industrial and Systems Engineering (Distance) - MISE

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INSY 7300/7306 Advanced Engineering Statistics I 3

INSY 7420/7426 Linear Programming and Network Flows 3

INSY 7950/7956 Seminar 1

Select 12 Credits in INSY 6000-8999 12

Select 9 Credits in INSY 6000-8999 or INSY-related @6000-8999 (Electives) 9

Total Hours 31

Industrial and Systems Engineering - MS

Industrial and Systems Engineering (MS)

INSY6600 Manufacturing and Production Economics 3

INSY7300 Advanced Engineering Statistics I 3

INSY7420 Linear Programming and Network Flows 3

INSY7950 Seminar 1

INSY7990 Research and Thesis 4-6

Select 6-8 credits in INSY 6000-8999 6-8

Select 9 credits in INSY 6000-8999 or INSY-related @6000-8999 (Electives) 9

Total Hours 31

Industrial and Systems Engineering - PhD

Industrial and Systems Engineering - PhD

INSY6600 Manufacturing and Production Economics 3

INSY7300 Advanced Engineering Statistics I 3

INSY7420 Linear Programming and Network Flows 3

INSY7950 Seminar 1

INSY 8990 Research and Dissertation 10-29

Select at least 21 credits in INSY 6000-8999 or INSY-related @6000-8999 (Electives)

Electives must include at least 12 credits in INSY 6000-8999 12-40

INSY-related @6000-8999 0-28

Occupational Safety & Ergonomics

Occupational Safety & Ergonomics (Graduate Certificate)

INSY 6010/6016 Safety Engineering I 3

INSY 7020/7026 Safety Engineering II 3

INSY 7060/7066 Ergonomics I 3

INSY 7070/7076 Ergonomics II 3

Select 3 Credits of the following: 3

INSY 7050/7056 Industrial Hygiene and Environmental Hazards

INSY 7080/7086 Human Factors Engineering

Total Hours 15

Materials Engineering - MMtlE, MS, PhD

Degree Programs:

• Materials Engineering - MMtlE (p. 16) • Materials Engineering - MS (p. 16) • Materials Engineering - PhD (p. 16)

Materials Engineering offers graduate programs of instruction and research leading to the degrees of master of materials engineering (MMtlE), master of science (MS) and doctor of philosophy (PhD). All applicants must submit GRE scores for the General Test. Students

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16 Materials Engineering (MS)

completing all degree programs are expected to have knowledge in the following areas: mechanical properties; materials structure; materials thermodynamics; kinetics; and electrical, optical and magnetic properties of materials. There are no foreign language or minor requirements for Materials Engineering graduate degrees. All students must submit an approved plan of study within one year of matriculating in the program.

The MMtlE is intended for those who expect to enter the engineering profession at an advanced level or are practicing engineers wishing to gain additional fundamental knowledge in the field of materials. Those students lacking the necessary background may be required to take additional course work. The requirements for the degree are 33 credit hours including a final engineering report. The topic of the report will be agreed upon by the student and the advisory committee. Applicants must have a baccalaureate degree in engineering or science from an institution of recognized standing. Students must pass a qualifying examination prior to taking the final general comprehensive examination required by the Graduate School.

The MS is intended for those who seek advanced knowledge in materials science or engineering for a career in research or other professional practice. The applicant must have a baccalaureate degree or its equivalent in an engineering or scientific discipline from an institution of recognized standing. Those lacking the necessary background will be required to take additional course work to ensure the continuity of their educational and professional experience. The MS program consists of 30 credit hours selected from areas of study appropriate to the objectives of the applicant and includes a thesis. Students must pass a qualifying examination prior to taking the final comprehensive examination required by the Graduate School. The PhD program requires that students pass qualifying examinations (oral and written) with a greater proficiency than master’s students prior to taking the comprehensive examinations. The program is arranged on an individual basis with the student’s advisory committee and in accordance with Graduate School guidelines. Students admitted to the doctoral program are required to take the general comprehensive examination based on a research proposal developed by the student within two years after entering the program. The student should be prepared to be examined in all areas of materials engineering.

Materials Engineering (MS)

Materials Engineering (MS)

MATL7990 Research and Thesis 4

Select 21 Credits in MATL 6000-8999 21

Select 5 Credits in @ 6000-8999 (Electives) 5

Total Hours 30

Materials Engineering - MMtlE

Materials Engineering (MMtlE)

MATL7980 Master Materials Engineering Project 3

Total Hours 33

Materials Engineering - Distance (MMtlE)

MATL7986 Master Materials Engineering Project 3

Total Hours 33

Materials Engineering - PhD

Materials Engineering (PhD)

MATL8990 Research and Dissertation 10

Select 21 Credits in MATL 6000-8999 21

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Mechanical Engineering - MS, PhD

Degree Programs:

• Mechanical Engineering - MS (p. 17) • Mechanical Engineering -PhD (p. 18)

The Mechanical Engineering Department offers graduate programs of instruction and research leading to the degrees of master of science (thesis and non-thesis options), and doctor of philosophy. Educational and research facilities are available to support graduate study in solid mechanics, experimental mechanics, electronic packaging and reliability, fracture and failure mechanics, robotics, vibrations, controls, dynamical systems, engineering design, manufacturing, friction-lubrication-wear, engineering acoustics, computer-aided design, fluid dynamics, transportation systems, conventional and renewable energy systems, thermal/fluid sciences and nanotechnology applications. The applicant must hold a bachelor’s degree or its equivalent from an institution of recognized standing. If the applicant’s undergraduate degree is not closely related to mechanical engineering, an individualized plan of study will be developed to impart the critical skills inherent in the bachelor’s mechanical engineering program. This typically includes completing a prescribed number of core undergraduate mechanical engineering courses in addition to the graduate requirements. All applicants must submit Graduate Record Examination scores for the General Test and will be evaluated on an individual basis by the Mechanical Engineering Graduate Committee.

MS (Non-Thesis Option): This degree is intended for those applicants who expect to enter the engineering profession at an advanced level or those who are employed and seeking professional development. Requirements for the degree consist of completing 30 credit hours of 6000-7000 level courses. A minimum of 21 credit hours of graded course work should be in mechanical engineering. Substitution of courses from other engineering/science disciplines is permitted with prior approval when appropriate courses are unavailable in mechanical engineering. A committee of three faculty members including a major professor will supervise the plan of study of each student. There is no faculty supervised project requirement.

MS (Thesis Option): This degree is intended for those applicants who expect to enter the engineering profession at an advanced level with some creative research experience. The MS applicant must have a baccalaureate or its equivalent in an engineering or scientific discipline from an institute of recognized standing. The degree requires 30 credit hours of 6000-7000 level courses including 6 credit hours of MECH7990. A minimum of 21 credit hours of course work should be in mechanical engineering courses. Substitution of courses from other engineering/science disciplines is permitted with prior approval when appropriate courses are unavailable in mechanical engineering. All candidates must pass an oral defense of their written thesis including a comprehensive examination covering the major courses. A committee of at least three faculty members including the major professor will take part in evaluating the thesis.

Doctor of Philosophy (PhD): This degree provides for advanced coursework and emphasizes original, creative research. A dissertation embodying the results of this research represents a major portion of the requirements for this degree. The PhD program will consist of a minimum of 60 credit hours, including dissertation, beyond the BS degree. PhD students will select their major courses from those at the 7000-8000-level unless there are special requirements for more basic courses. A minimum of 21 credit hours of graded course work should be in mechanical engineering courses. This amount could include up to 4 credit hours of MECH7990 or equivalent. Substitution of courses from other engineering/science disciplines is permitted when appropriate courses are unavailable in mechanical engineering. The PhD also requires a coordinated minor of at least 9 credit hours of graded coursework in a closely related field such as mathematics, physics, chemistry, or other engineering disciplines. A minimum of 10 credit hours of MECH8990 Research and Dissertation is also required. There is no language requirement for the PhD.

The General Doctoral Examination (Preliminary Examination) must be taken by those seeking a PhD. This examination, administered by the major professor in coordination with members of a committee of at least four faculty (including the major professor) consists of two parts: (1) a written Qualifying Examination based upon knowledge acquired from coursework, taken within four semesters from the date of entry, and (2) an oral examination which includes questions on knowledge acquired from coursework as well as a detailed presentation and defense by the student of his/her proposed dissertation research. All PhD candidates must also pass a Final Examination consisting of an oral defense of their written dissertation. A maximum of two attempts each is allowed for passing the General Doctoral Examination and the Final Examination.

Mechanical Engineering - MS

Mechanical Engineering (MS)

MECH7990 Research and Thesis 4

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18 Mechanical Engineering - PhD

Total Hours 30

Mechanical Engineering - PhD

PhD

MECH8990 Research and Dissertation 10

Total Hours 60

Polymer and Fiber Engineering - MS, PhD

Program Degrees:

• Polymer and Fiber Engineering - MS (p. 18) • Polymer and Fiber Engineering -PhD (p. 18)

Graduate study in the Department of Polymer and Fiber Engineering leads to Master of Science, and Doctor of Philosophy degrees. GRE and (if an international student) TOEFL scores of all applicants are reviewed by the departmental Graduate Committee. Applicants must hold a bachelor’s degree in polymer engineering, fiber engineering, materials engineering/science, chemical engineering or related subject area.

Students in the MS program enroll in course work covering core courses in polymer chemistry, polymer processing, structure and properties of polymers, and polymer characterization. They further enroll in specialized courses beneficial to their research, such as mechanics of flexible structures, composite materials, biopolymers, and fiber and film formation.Boththesis and non-thesis options are offered. The thesis option requires a minimum of 30 hours of graduate courses plus thesis. The non-thesis option requires 36 hours and a graduate project.

The PhD in Polymer and Fiber Engineering requires a minimum of 60 hours of graduate courses including a minimum of 10 hours ofPFEN8990 Research and Dissertation . The student must enroll in a set of core courses and pass a written qualifying exam. After successfully presenting a dissertation research proposal to the student’s graduate committee, the student becomes a candidate for the Doctor of Philosophy degree and may proceed with the dissertation research. Graduate teaching and research assistantships are available. There is no language requirement for the MS or PhD.

Polymer and Fiber Engineering (MS)

Polymer & Fiber Engineering (MS)

PFEN7950 Graduate Seminar (I) 1

PFEN7950 Graduate Seminar (II) 1

PFEN7990 Research and Thesis 4

Total Hours 30

Polymer & Fiber Engineering Non-Thesis (MS)

6 Credits in PFEN7980 6

Select 21 Credits in PFEN 6000-8999 21

Total Hours 36

Polymer and Fiber Engineering (PhD)

PhD

PFEN8990 Research and Dissertation 10

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Total Hours 60

Department of Aerospace Engineering

Aerospace engineers are concerned with the application of scientific principles and engineering concepts and practices to design, build, test and operate aerospace systems. The curriculum is intended to provide students with a broad understanding of fundamental scientific and technological principles, and to develop the ability to use these principles in developing solutions to engineering problems.

The objectives of the aerospace engineering program are: (1) to help students develop written and oral communication skills and to acquire a knowledge of history, literature and society; (2) to provide students a solid foundation in and a sound working knowledge of basic engineering principles; (3) to help students obtain an understanding of the engineering principles and skills specifically needed in the aeronautical and astronautical disciplines; and (4) to assist and encourage each student to develop an enhanced ability to learn and think creatively.

Required courses cover aeronautical and astronautical subjects. Students may also choose to emphasize either aeronautical or astronautical systems. Technical electives allow concentration in such areas as aerodynamics, astronautics, flight dynamics and control, propulsion, structures, and structural dynamics. The design of aerospace components and systems is considered to be an integral part of the education of aerospace engineers. Hence, design is included throughout the curriculum, beginning with a sophomore course in aerospace fundamentals and culminating in the senior design course sequence. Students are required to apply their theoretical knowledge of aerodynamics, dynamics, structures and propulsion to solve open-ended problems and to produce portions of preliminary designs.

Major

• Aerospace Engineering (p. 19)

Curriculum in Aerospace Engineering

Freshman

Fall Hours Spring Hours

CHEM1030 Fundamentals Chemistry I 3 ENGL1120 English Composition II 3

CHEM1031 Fundamental Chemistry I Laboratory 1 PHYS1600 Engineering Physics I 4

ENGL1100 English Composition I 3 MATH1620 Calculus II 4

MATH1610 Calculus I _{4 Core Social Science}1 ₃

Core History1 3 ENGR1110 Introduction to Engineering 2

ENGR1100 Engineering Orientation 0

COMP1200 Introduction to Computing for Engineers and Scientists

2

16 16

Sophomore

MATH2630 Calculus III 4 MATH2660 Topics in Linear Algebra 3

MATH2650 Linear Differential Equations 3 ENGR2070 Mechanics of Materials 3

PHYS1610 Engineering Physics II 4 ENGR2010 Thermodynamics 3

ENGR2050 Statics 3 ENGR2350 Dynamics 3

AERO2200 Aerospace Fundamentals _{2 Core Humanities}1 ₃

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20 Department of Biosystems Engineering

Junior

MATH5630 Introduction to Numerical Analysis I 3 AERO3120 Aerodynamics II 3

ELEC3810 Fundamentals of Electrical Engineering 3 AERO3230 Flight Dynamics 4

Core Literature 1 3 AERO3310 Orbital Mechanics 3

AERO3110 Aerodynamics I 3 AERO3610 Aerospace Structures I 2

AERO3130 Aerodynamics Laboratory 2 Core Fine Arts 3

AERO3220 Aerospace Systems 3

17 15

Senior

AERO4140 Aerodynamics III 3 AERO4630 Aerospace Structural Dynamics 4

AERO4510 Aerospace Propulsion 4 AERO4720 Aerospace Design II 3

AERO4620 Aerospace Structures II _{4 Aero/Astro Elective}3 ₆

AERO4710 Aerospace Design I 3 AERO4AA0 Program Assessment 0

Core Social Science1 3

UNIV4AA0 University Graduation 0

14 16

Total Hours: 125

1 _{The AU Bulletin lists the University Core Curriculum requirements for students in the College of Engineering. Students must}

complete a sequence in either Literature or History.

Department of Biosystems Engineering

Biosystems Engineers ensure that we have the necessities of life: healthy food to eat, clean water to drink, renewable fuel and energy sources, and a healthy environment in which to live. Therefore, the mission of the Department of Biosystems Engineering at Auburn University is to develop and disseminate engineering knowledge to solve problems in biological systems, natural resources and the environment. It meets the resident instruction portion of that mission through the offering of a degree program which leads to a Bachelor of Biosystems Engineering. Options in Ecological Engineering and Forest Engineering are also available under the Biosystems

Engineering degree program.

Biosystems Engineering

The Department of Biosystems Engineering offers the only accredited degree in Biosystems Engineering in Alabama. It is committed to preparing students for productive professional careers in the biosystems industries and related natural resource and environmental systems sectors. Specific program educational objectives of the Biosystems Engineering degree program are: 1) Graduates solve engineering problems such as those associated with the environment and natural resources, and the production, processing, storage, manufacture, utilization, and recycling of biological products; 2) Graduates develop solutions to problems that combine engineering and biological sciences; 3) Graduates develop environmentally and economically feasible and practical design solutions; and 4) Graduates expand the role of engineering in society, communicate effectively, practice in a professional and ethical manner, and provide leadership in the profession. The Biosystems Engineering program curriculum is coordinated by the Samuel Ginn College of Engineering. Students should apply for admission to the Samuel Ginn College of Engineering and complete the Pre-Biosystems Engineering program.

Ecological Engineering Option

The Department of Biosystems Engineering offers an option in Ecological Engineering as part of the Bachelor of Biosystems Engineering degree. This option prepares students to solve environmental problems by applying engineering knowledge to natural ecological and biological systems. Ecological engineering combines basic and applied science from engineering, ecology, economics, and natural sciences to design, construct, and manage sustainable ecosystems that have value to both humans and the natural

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environment. The ecological engineering option is coordinated by the Samuel Ginn College of Engineering. Students should apply for admission to the Samuel Ginn College of Engineering and complete the Ecological Engineering option portion of the Pre-Biosystems Engineering program.

Forest Engineering Option

The Department of Biosystems Engineering in conjunction with the Samuel Ginn College of Engineering and School of Forestry and Wildlife Sciences offers an option in Forest Engineering as part of the Bachelor of Biosystems Engineering degree. This option prepares students for productive professional careers in the forest products industry and related natural resource and environmental systems sector.

The Forest Engineering option is coordinated by the Samuel Ginn College of Engineering and the School of Forestry and Wildlife Sciences, and is administered by the Department of Biosystems Engineering. Students can become registered foresters upon completion of a minor in forest resources. Beginning students should apply to the Samuel Ginn College of Engineering and complete the Forest Engineering option portion of the Pre-Biosystems Engineering program. Students pursuing the Forest Engineering option must meet School of Forestry and Wildlife Sciences requirements for admission to the Forestry Summer Field Practicum.

Major

• Biosystems Engineering (p. 22)

• Biosystems Engineering (Ecological Engineering option) (p. 24) • Biosystems Engineering (Forest Engineeringoption (p. 21))

Curriculum in Biosystem Engineering (Forest Engineering option)

Freshman

COMP1200 Introduction to Computing for Engineers and Scientists

2 MATH1620 Calculus II 4

MATH1610 Calculus I 4 ENGL1120 English Composition II 3

ENGL1100 English Composition I 3 PHYS1600 Engineering Physics I 4

ENGR1100 Engineering Orientation 0 HIST1220 Technology And

Civilization II or 1020 World History II 3 CHEM1030 Fundamentals Chemistry I 3 ENGR1110 Introduction to Engineering 2

CHEM1031 Fundamental Chemistry I Laboratory

1

HIST1210 Technology and

Civilization I or 1010 World History I1 3

16 16

Sophomore

Fall Hours Spring Hours Summer Hours

ENGR2010 Thermodynamics 3 MATH2650 Linear Differential

Equations

3 FORY3020 Forest Biology 3

ENGR2050 Statics 3 ENGR2350 Dynamics 3 FOEN3040 Forest Surveying 2

MATH2630 Calculus III 4 STAT3010 Statistics for Engineers

and Scientists

3 FORY3050 Field Mensuration 4

BSEN2210 Engineering Methods for Biological Systems

2 ENGR2070 Mechanics of Materials 3 FORY3060 Introduction to Forest Management Strategies

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22 Curriculum in Biosystems Engineering

BIOL1020 Principles of Biology 4 CHEM1040 Fundamental Chemistry

II

3

CHEM1041 Fundamental Chemistry II Laboratory

1

16 16 10

Junior

BSEN3210 Mechanical Power for Biosystems

3 BSEN3230 Natural Resource Conservation Engineering

3

FORY3180 Forest Measurements I 3 CIVL3310 Geotechnical

Engineering I

4

FORY3100 Dendrology 3 Fine Arts Core 3

BSEN3310 Hydraulic Transport in Biological Systems

4 Social Science Core2 ₃

13 13

Senior

BSEN5220 Geospatial Technologies in Biosystems

3 BSEN4310 Engineering Design for Biosystems

3

BSEN5560 Site Design for Biosystems

3 Forest Engineering Elective 3

FOEN5710 Timber Harvesting Analysis Methods

3 PHIL1040 Business Ethics or 1020

Introduction to Ethics

3

FORY5230 Silviculture 4 Literature Core 3

BSEN4300 Professional Practice in Biosystems Engineering

2 UNIV4AA0 University Graduation 0

15 12

Total Hours: 127

1 _{The AU Bulletin lists the University Core Curriculum requirements for students in the College of Engineering. Students must}

complete a sequence in either Literature or History. Biosystems Engineering should complete the World History or Technology and Civilization Course sequence to ensure that all SLOs are met by students by the time of graduation.

2 _{ECON2020 preferred.}

Forest Engineering Elective: see adviser for approved course listing.

Curriculum in Biosystems Engineering

Freshman

CHEM1030 Fundamentals Chemistry I 3 PHYS1600 Engineering Physics I 4

CHEM1031 Fundamental Chemistry I Laboratory 1 ENGL1120 English Composition II 3

ENGR1100 Engineering Orientation 0 ENGR1110 Introduction to Engineering 2

MATH1610 Calculus I 4 HIST1220 Technology And Civilization II or 1020

World History II1