Professional areas include research, development, design, testing, production, operation and maintenance, marketing and sales, and administration.
Mechanical engineering is an extremely diverse profession which is concerned with
The mechanical engineering curriculum is designed to provide a solid foundation in higher mathematics, physics, and chemistry followed by extensive instruction in all of the classical mechanical engineering disciplines. The curriculum contains a significant amount of design content wherein students are required to apply their engineering skills to solve real-world and/or open-ended problems in a project format.
The principal objectives of the design experience are:
The design experience begins in freshman year (ME 100) wherein students are introduced to elements of engineering design. This often involves the design and construction of a device to perform a specified task. Throughout the sophomore, junior, and senior years, mechanical engineering students are required to solve design problems in many of the required engineering courses and across the spectrum of disciplines encompassed by the mechanical engineering profession. Senior mechanical engineering students are challenged in a sequence of three formal design courses (ME 470, 471, 472) involving a capstone senior design project which begins in ME 470 and culminates in ME 472. The capstone project will call upon engineering knowledge in the thermal/fluid sciences, structures and motion analysis, and an understanding of engineering materials. Other elements of design experience will include engineering economy and social issues such as product safety and reliability. Students are required to submit written technical reports as well as give oral presentations describing project results. This is in accord with the department's objective of producing engineers who have good communication skills as well as excellent technical skills. The design experience is enhanced by providing students with technologically modern lab facilities and computational tools.
In addition to engineering courses, the department requires significant studies in the humanities and social sciences to establish a breadth and depth of awareness and education. Advanced courses in both the humanities and social sciences are required. The humanity and social science requirements are consistent with the department's objective of graduating individuals with a well-rounded education.
The Department of Mechanical Engineering prides itself on offering students a close working relationship with the faculty. Mechanical engineering faculty are required to set aside office hours to assist students with class assignments. In addition, each student who enters the program is assigned one of the mechanical engineering faculty members as an academic advisor who will meet quarterly with the student to assist in course scheduling.
If you are majoring in mechanical engineering as preparation for entry into another profession such as law, medicine, business, etc., consult with the department chair regarding modifying your schedule to meet specific career objectives.
The Department of Mechanical Engineering offers a co-op program that allows you to acquire practical experience and income by working in industry after completing your freshman year. Sophomore and junior courses are scheduled to accommodate a work-academics plan based on alternate periods of study and work. Consult the co-op office if you are interested.
An honors program for students with a 3.35 g.p.a. provides the opportunity to receive graduate credit for coursework throughout your senior year. Contact the department office for further information.
The Paul H. and Irene C. Black Memorial Fund provides a large number of generous scholarships for seniors majoring in mechanical engineering. A good academic record, a history of work to cover the cost of education, and participation in departmental activities are key considerations in awarding the scholarship. Contact the department office for additional information.
IT 101 Engr. Graphics Fund. 3 MATH 263A Calculus 4 English composition (1) 5 Soc. Sci. and Hum.(1)
ET 181 Computer Meth. in Engr. I 4 INCO 103 Public Speaking 4 MATH 263B Calculus 4 PHYS 251 Gen. Phys. 5 Soc. Sci. and Hum.(2)
ET 280 Engr. and Tech.-An Overview 4 or ME 100 Intro to Mech. Engr. MATH 263C Calculus 4 PHYS 252 Gen. Phys. 5 Soc. Sci. and Hum.(2)
CE 220 Statics 4 CHEM 151 Fund. of Chemistry I 5 MATH 263D Calculus 4 PHYS 253 Gen. Phys. 5
CHEM 152 Fund. of Chemistry II 5 IT 117 Basic Metal Machining 3 MATH 340 Diff. Equations 4 ME 224 Dynamics 4
CE 222 Strength of Materials 4 CE 223 Strength of Materials Lab 1 CHEM 123 Prin. of Chemistry III 4 ENG 305J Technical Writing (3) 4 Soc. Sci. and Hum.(2)
CE 340 Fluid Mechanics 5 CHE 331 Prin. of Engr. Materials 4 ME 321 Intro to Thermodynamics 4 ME 350 Intro to CAD 3 ME 398 Junior Laboratory (4) 3
ET 240 Computer Meth. in Engr. II 4 ME 301 Kinematics & Dynamics of Machines 4 ME 313 Metal Processing 3 Technical Electives (5)
CHE 418 Chem. Engineering Lab-Materials 2 ME 328 Applied Thermodynamics 4 ME 403 Machine Design I 4 ME 412 Heat Transfer 4
EE 304 Basic EE I Lab 1 EE 313 Basic EE I (Circuits) 3 ME 470 ME Design I (7) 3 ME 491 Mechanical Vibrations I 4 ME 498 Senior Lab (6) 3
EE 314 Basic EE II (Electronics) 3 ME 471 ME Design II 3 Tier III requiremnt 4 Technical electives (5)
EE 305 Basic EE II Lab 1 EE 315 Basic EE III (Power) 3 ME 401 Systems Analysis and Controls 4 ME 472 ME Design III 3
University Advancement and Computer Services revised this file (https://www.ohio.edu/catalog/01-02/colleges/me.htm) on July 20, 2001.
Please E-mail comments or suggestions to "ucat@www.ohiou.edu."