General Education Requirements (54 Hours)
Area I – Written Composition (2 Courses, 6 Hours)
Area II – Humanities & Fine Arts (3 Courses, 9 Hours)
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3 hours: CA 110
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3 hours from: EH 215, EH 216, EH 225, EH 226, EH 235, EH 236
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3 hours from: ARH 100, ARH 103, ARH 123, ARS 101, DRA 110, MUL 101
Area III – Natural Sciences & Mathematics (3 Courses & Labs, 12 Hours)
Area IV – History, Social & Behavioral Sciences (3 Courses, 9 Hours)
-
3 or 6 hours from: AN 100, AN 101, CA 100, CA 211, CJ 105, ECO 215, ECO 216, GEO 114, GEO 115, GS 101, HY 101, HY 102, HY 135, HY 136, IS 100, IST 201, NAS 101, PSC 130, PSY 120, PSY 250, SY 109, SY 112
Area V (4 Courses, 18 Hours)
_________________________
Major Requirements (72 Hours)
Engineering Course Requirements (8 Courses, 23 Hours)
Mechanical Engineering Course Requirements (15 Courses & Labs, 37 Hours)
-
4 hours: ME 328
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27 hours: ME 135, ME 312, ME 314, ME 316, ME 317, ME 326, ME 410 (W), ME 426, ME 472
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2 hours: ME 416
- 4 hour: ME 336 (W), ME 412, ME 414, ME 429
Science Elective (1 Course (no lab required), 3 hours)
Mechanical Elective (1 Course, 3 Hours)
- 3 hours: ME 400 level courses (excluded required courses or any approved ME 490/ME 494 - must be approved by Chair.
Mechanical/Technical (2 Courses, 6 Hours)
- 6 hours from: BLY 122, CH 201, CH 202, GY 305 (lab required), GY 310, PH 303 (lab required),
ST 315, ST 320, MA 316, MA 332, MA 334, MA 335, MA 354, MA 436, MA 437, or any approved ME 490, ME 494 - must be approved by Chair.
Minor Requirements (0 Hours)
A minor is not required for this degree program
Notes:
ME 135 – ONLY 2 attempts to earn a grade of C or better. Students who do not meet this requirement will not be allowed to continue in the program.
Additional Information
It is important that students make adequate progress in the Mechanical Engineering program. Satisfactory completion of a set of fundamental courses is required before a student is allowed to take advanced courses. Professional Component Standing (PCS) is awarded by the chair of the department when the student completes the College of Engineering PCS requirements and the WBBJ ME departmental PCS requirements.
College of Engineering PCS Courses
| Course Number | Course Title | Credit Hours | Minimum Grade |
|---|---|---|---|
| EH 101 | English Composition I | 3 | C |
| EH 102 | English Composition II | 3 | C |
| CH 131 | General Chemistry I + Lab | 4 | C |
| MA 125 | Calculus I | 4 | C |
| MA 126 | Calculus II | 4 | C |
| PH 201 | Calculus-Based Physics I + Lab | 4 | C |
Mechanical Engineering PCS Courses
| Course Number | Course Title | Credit Hours | Minimum Grade |
|---|---|---|---|
| MA 227 | Calculus III | 4 | C |
| MA 237 | Linear Algebra I | 3 | C |
| PH 202 | Calculus-Based Physics II + Lab | 4 | C |
| EG 283 | Statics | 3 | C |
| ME 135 | Engr Graphics and Comm | 3 | C |
Engineering (BS): Mechanical Engineering (126 Total Hours)
Third Year — Fall Semester
| Course ID | Course Description | Hours |
|---|---|---|
| EG 270 | Thermodynamics | 3 |
| EG 360 | Fluid Mechanics | 3 |
| ME 326 | Material Science | 3 |
| ME 328 | Mechanical Engineering Analysis + Lab | 4 |
| Science Elective | **Science Elective (only lecture) | 3 |
| Total Hours | 16 |
Third Year — Spring Semester
| Course ID | Course Description | Hours |
|---|---|---|
| ME 312 | Mechanical Engineering Thermodynamics | 3 |
| ME 314 | Machine Component Design | 3 |
| ME 316 | Instrumentation & Experimental Methods | 3 |
| ME 317 | Heat Transfer | 3 |
| ME 336 | Material Science Lab (W) | 1 |
| General Education | **Area II or IV | 3 |
| Total Hours | 16 |
| Notes |
|---|
| *Recommended Course |
| **See Degree Requirements |
MECHANICAL ENGINEERING SAMPLE 4-YEAR PLAN WITH MILESTONES
| Term 1 | Course Description | Pre-req | Cr Hrs | Milestone Notes |
|---|---|---|---|---|
| EH 101* | English Composition I | 3 | Must complete at least 12 hours with a 2.0 or higher GPA | |
| MA 125 | Calculus I | ACT Math 27 | 4 | |
| CH 131/CH 131L | General Chemistry I | ACT Math 24 | 4 | |
| EG 101 | Freshman Seminar | ACT Math 24 | 2 | |
| Fine Arts Elective | 3 | |||
| 16 |
| Term 2 | Course Description | Pre-req | Cr Hrs | Milestone Notes |
|---|---|---|---|---|
| EH 102 | English Composition II | EH 101 or test score |
3 | MA 125 |
| MA 126 | Calculus II | MA 125 | 4 | CH 131/131L |
| PH 201/PH 201L | Physics I | MA 125 and MA 126 (cc) |
4 | EH 101 or EH 105* |
| ME 135 | Engineering Graphics and Communication | MA 125 (cc) | 3 | |
| History (US or Western Civ.) | 3 | |||
| 17 |
| Term 3 | Course Description | Pre-req | Cr Hrs | Milestone Notes |
|---|---|---|---|---|
| MA 227 | Calculus III | MA 126 | 4 | PH 201/201L |
| MA 237 | Linear Algebra I | MA 126 | 3 | MA 126 |
| PH 202/PH 202L | Physics II | PH 201 | 4 | EH 102 |
| EG 283 | Statics | MA 126 and PH 201 |
3 | ME 135 |
| CA 110 | 3 | |||
| 17 |
| Term 4 | Course Description | Pre-req | Cr Hrs | Milestone Notes |
|---|---|---|---|---|
| MA 238 | Differential Equations | MA 227 (cc) | 3 | MA 227 |
| EG 284 | Dynamics | EG 283, MA 126 | 3 | PH 202/202L |
| EG 315 | Mechanics of Materials | EG 283, MA 227, PH 201 |
3 | EG 283 |
| EG 231 | Engineering Economics and Ethics | MA 126 | 3 | MA 237 |
| EG 220 | Electrical Circuits | PH 202, MA 126 | 3 | |
| 15 |
| Term 5 | Course Description | Pre-req | Cr Hrs | Milestone Notes |
|---|---|---|---|---|
| EG 360 | Fluid Mechanics | EG 284 and MA 238 | 3 | MA 238 |
| ME 326 | Materials Science | EG 315, PH 202, CH 131 | 3 | |
| Science Elective | See advisor for approved course list | 3 | ||
| EG 270 | Thermodynamics | PH 201 and MA 126 |
3 | |
| ME 328 | ME Analysis/Lab | MA 227, MA 237, MA 238 |
4 | |
| 16 |
| Term 6 | Course Description | Pre-req | Cr Hrs | Milestone Notes |
|---|---|---|---|---|
| ME 317 | Heat Transfer | EG 270, EG 360, ME 328, MA 238 | 3 | Apply for graduation |
| ME 336 (W) | Materials Science Lab | ME 326, PH 202, CH 131, EG 315 |
1 | Apply for FE Exam |
| ME 314 | Machine Component Design | EG 284 and EG 315 | 3 | |
| ME 312 | ME Thermodynamics | EG 270 | 3 | |
| ME 316 | Instrumentation and Experimental Method | MA 238, ME 328, EG 220, PH 202 | 3 | |
| English Literature | 3 | |||
| 16 |
| Term 7 | Course Description | Pre-req | Cr Hrs | Milestone Notes |
|---|---|---|---|---|
| ME 410 (W) | Principles of Design | EG 231, ME 314, ME 316, ME 317, ME 336 |
3 | FE Exam |
| ME 429 | Controls and Instrumentation Lab | 1 | ||
| ME 426 | Controls | MA 238, ME 316, ME 328 | 3 | |
| ME 412 | Thermodynamics Lab | ME 312, ME 316, ME 317, EG 360 | 1 | |
| ME Elective | See advisor for approved course list | 3 | ||
| Social/Behavioral Elective | 3 | |||
| 14 |
| Term 8 | Course Description | Pre-req | Cr Hrs | Milestone Notes |
|---|---|---|---|---|
| ME 414 | Capstone Design | ME 410 | 1 | |
| ME 416 | Capstone Project | ME 410 | 2 | |
| ME Elective or Technical Elective | See advisor for approved course list | 3 | ||
| ME Elective or Technical Elective | See advisor for approved course list | 3 | ||
| ME 472 | Vibrations | EG 284, EG 315, ME 316 |
3 | |
| Social/Behavioral Elective | 3 | |||
| 15 | ||||
| **TOTAL | 126 | |||
| All bold courses meet general education requirements. | ||||
| Courses listed as Milestones are required to obtain Professional Component Standing (PCS). | ||||
| Prerequisite courses denoted (cc) may be taken concurrently. | ||||
| *Students who earn an English ACT score of 27, or a written SAT score of 610, can opt out of EH 101. | ||||
| **Students not Term 1 - Calculus I ready will exceed the 126 hours required for this degree. If math is not started prior to Fall -Year 1, you are likely extending your four-year graduation time table. Students with ACT Math scores 21 and below should begin math courses in the summer before Fall - Year 1. | ||||
| Two designated writing (W) courses are required with at least one course chosen from offerings in the student's major or minor. Courses carrying this required credit are identified in the University Bulletin by a (W) after the course title. | ||||
| The Sample 4-year plan is designed as a guide for students preparing for their course selections. This information provides only a suggested schedule. Actual course selections should be made in consultation with an advisor. | ||||
| Department of Mechanical, Aerospace and Biomedical Engineering |
(251) 460-6168 |
|---|---|
| Chair | David A. Nelson |
| Professors | Hsiao, Nelson, Phan |
| Associate Professors | Cauley, Montalvo, Tambe |
| Assistant Professors | Kar, Richardson, Dizbay-Onat, Yadollahi |
| Professors Emeritus | Donovan, Engin |
| Instructors | Boyd, Thigpen, Webb |
Department of Mechanical, Aerospace and Biomedical Engineering website
https://www.southalabama.edu/colleges/engineering/me/index.html
Mechanical Engineering is one of the broadest engineering disciplines. Mechanical engineers invent, analyze and design systems that produce power or convert energy. This encompasses such diverse applications as designing next-generation aircraft and automobiles, inventing novel methods of generating energy from renewable sources, and developing sophisticated new medical devices and systems. Mechanical engineers are in the forefront of exciting new technological fields, including nano-engineering, biomedical engineering, and energy research.
The basic fields of study for mechanical engineers include:
- Materials science, the study of the relationship between structure, properties, and processing of materials.
- Thermodynamics and heat transfer dealing with basic concepts and applications of work, energy, and power. Applications include power generation from fossil fuels, from renewable sources (solar, wind energy) and fuel cells.
- Engineering mechanics, the study of static and dynamic effects of forces applied to rigid and flexible solid bodies.
- Fluid mechanics, the study of the forces and motions of liquids and gases. Included in this area of study are hydraulics, gas dynamics, aerodynamics, and design and application of pumps, compressors, and turbines.
- Control systems including studies of transient and steady-state response of systems to external inputs.
- Design synthesis which integrates all fields of engineering in the production of safe, practical, efficient, and economically feasible solutions to real problems.
The curriculum leading to the degree of Bachelor of Science in Mechanical Engineering (BSME) is designed so that graduates can work in any Mechanical Engineering field, or continue their education at the graduate level.
All BSME students complete a senior-year "capstone" design project, in which a team of students defines and solves a unique, real-world engineering problem.
Aerospace Engineering Track
Students who plan to enter careers or graduate studies in aerospace, aeronautics,
astronautics, or a related field may pursue the specialized track in Aerospace Engineering
within the BSME program. Students in this track must complete AE 361 Introduction to Aerodynamics, in addition to two other approved aerospace engineering
electives.
Students interested in the Aerospace Engineering track within the BSME program should
consult their academic advisor.
Biomedical Engineering Track
Students who plan to enter careers or graduate studies in biomedical engineering may pursue the specialized track in Biomedical Engineering within the BSME program. This track may also be appropriate for students planning to pursue a career in the health sciences (medical school, dental school, or other health profession programs).
Students in the Biomedical Engineering track must complete General Biology I & II with labs (BLY 121, BLY 121L, BLY 122, BLY 122L), General Chemistry II with lab (CH 132, CH 132L) and Introduction to Biomedical Engineering (BME 467).
Students interested in the Biomedical Engineering track within the BSME program should consult their academic advisor.
Students planning to apply for admission to a health profession program should also consult a Pre-Health Profession Advisor to identify any additional courses that may be required.
BSME Program Educational Objectives:
Alumni of the Bachelor of Science in Mechanical Engineering (BSME) program should demonstrate the following traits and accomplishments within five years following graduation:
-
Graduates will achieve professional advancements or promotions with progressively higher levels of responsibility, competency, professional and ethical judgment and analysis. They will apply creative and innovative techniques to solve significant problems. They will apply team assimilation skills to successfully manage cross-disciplinary, collaborative projects that require global and multicultural perspectives.
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Graduates will demonstrate effective written and oral communication skills in presenting, documenting and conveying their work via traditional and new media formats. They will use these skills in creating and supporting new or improved designs, inventions, and intellectual property, thereby contributing to the social, economic, and environmental well-being of local and global communities.
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Graduates will demonstrate commitment to lifelong learning and continuous professional development through activities such as mentoring, participating in professional societies, completing advanced degrees and achieving professional registration or other certifications.
Mechanical Engineering graduates will accomplish these objectives in the course of professional employment, entrepreneurship, military or public service and postgraduate education.
BSME Student Outcomes:
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an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
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an ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, and environmental, and economic factors
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an ability to communicate effectively with a range of audiences
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an ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
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an ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
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an ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
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an ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
The Bachelor of Science in Mechanical Engineering program is accredited by the Engineering Accreditation Commission of ABET, http://www.abet.org.
Mechanical Engineering Accelerated Bachelor's to Master's Program
The Department of Mechanical Engineering allows well-qualified undergraduates in the program to follow an “Accelerated Bachelor’s to Master’s” study plan. This plan permits up to six credit hours of graduate coursework to count towards both the Bachelor’s (as Technical Electives) and the Master’s degrees, so that the Master’s degree is earned faster than usual. (The coursework concerned must individually satisfy the requirements of both degrees.) See a departmental advisor for specific details.
Exam-Compliant Calculator Policy
Every Mechanical Engineering (ME) student must have an exam-compliant calculator. Only those calculators which are acceptable for use in the Fundamentals of Engineering (FE) exam are considered to be exam-compliant and may be used in Mechanical Engineering classes which allow calculator usage. Use of a calculator which is NOT exam-compliant in an ME test, quiz, or exam will be considered academic misconduct. For a list of exam-compliant calculator models, see https://ncees.org/exams/calculator/.