Mechanical Engineering Degrees
Bachelor of Science in Mechanical Engineering
The requirement for the degree is 128 units. A cumulative GPA of 2.0 or higher is required for all upper division course work in engineering, science and mathematics. See the
common requirements for undergraduate degrees section.
Composition/writing requirement | Units |
WRIT 130 | Analytical Writing | 4 |
WRIT 340 | Advanced Writing | 3 |
General education (see here) | Units |
General education+ | 20 |
pre-major requirements | Units |
Math Requirement |
MATH 125 | Calculus I | 4 |
MATH 126 | Calculus II | 4 |
MATH 226 | Calculus III | 4 |
MATH 245 | Mathematics of Physics and Engineering I | 4 |
Physics Requirement |
PHYS 151L* | Fundamentals of Physics I: Mechanics and Thermodynamics | 4 |
PHYS 152L | Fundamentals of Physics II: Electricity and Magnetism | 4 |
PHYS 153L | Fundamentals of Physics III: Optics and Modern Physics | 4 |
Chemistry Elective |
CHEM 105aL* | General Chemistry, or | |
CHEM 115aL | Advanced General Chemistry, or | |
MASC 110L | Materials Science | 4 |
Major requirements | Units |
Aerospace and Mechanical Engineering |
AME 101L | Introduction to Mechanical Engineering and Graphics | 3 |
AME 150L | Introduction to Computational Methods | 4 |
AME 201 | Statics | 3 |
AME 204 | Strength of Materials | 3 |
AME 301 | Dynamics | 3 |
AME 308 | Computer-Aided Analysis for Aero-Mechanical Design | 3 |
AME 309 | Dynamics of Fluids | 4 |
AME 310 | Engineering Thermodynamics I | 3 |
AME 331 | Heat Transfer | 3 |
AME 341aLbL | Mechoptronics Laboratory I and II | 3-3 |
AME 404 | Computational Solutions to Engineering Problems | 3 |
AME 409 | Senior Design Project | 4 |
AME 441aL | Senior Projects Laboratory | 3 |
AME 443L | Control Systems Laboratory | 3 |
AME 451 | Linear Control Systems Analysis, or | |
AME 420 | Engineering Vibrations | 3 |
Materials Science |
MASC 310 | Materials Behavior and Processing | 3 |
Major Electives | Units |
AME core electives** | 6 |
AME design elective*** | 3 |
Technical electives | 6 |
Total units: | | 128 |
Bachelor of Science in Mechanical Engineering (Petroleum Engineering)
The requirement for the degree is 128 units. A cumulative GPA of 2.0 or higher is required for all upper division course work in engineering, science and mathematics. See the
common requirements for undergraduate degrees section.
composition/writing requirement | Units |
WRIT 130 | Analytical Writing | 4 |
WRIT 340 | Advanced Writing | 3 |
General education (see here) | Units |
General education+ | 20 |
pre-major requirements | Units |
Math Requirement |
MATH 125 | Calculus I | 4 |
MATH 126 | Calculus II | 4 |
MATH 226 | Calculus III | 4 |
MATH 245 | Mathematics of Physics and Engineering I | 4 |
Physics Requirement |
PHYS 151L* | Fundamentals of Physics I: Mechanics, Waves and Sounds | 4 |
PHYS 152L | Fundamentals of Physics II: Electricity and Magnetism | 4 |
PHYS 153L | Fundamentals of Physics III: Optics and Modern Physics | 4 |
Chemistry Elective |
CHEM 105aL* | General Chemistry, or | |
CHEM 115aL | Advanced General Chemistry, or | |
MASC 110L | Materials Science | 4 |
major requirements | Units |
Aerospace and Mechanical Engineering |
AME 101L | Introduction to Mechanical Engineering and Graphics | 3 |
AME 150L | Introduction to Computational Methods in Mechanical Engineering | 4 |
AME 201 | Statics | 3 |
AME 204 | Strength of Materials | 3 |
AME 301 | Dynamics | 3 |
AME 308 | Computer-Aided Analysis for AeroMechanical Design | 3 |
AME 309 | Dynamics of Fluids | 4 |
AME 310 | Engineering Thermodynamics I | 3 |
AME 331 | Heat Transfer | 3 |
AME 341aLbL | Mechoptronics Laboratory I and II | 3-3 |
AME 404 | Computational Solutions to Engineering Problems | 3 |
AME 408 | Computer-Aided Design of Mechanical Systems | 3 |
AME 409 | Senior Design Project | 4 |
AME 441aL | Senior Projects Laboratory | 3 |
AME 443L | Control Systems Laboratory | 3 |
AME 451 | Linear Control Systems I | 3 |
AME 463L | Introduction to Transport Processes in Porous Media | 3 |
Petroleum Engineering |
PTE 461 | Formation Evaluation | 3 |
PTE 464L | Petroleum Reservoir Engineering | 3 |
PTE 465L | Drilling Technology and Subsurface Methods | 3 |
Major Electives | Units |
AME core elective** | 3 |
Total units: | | 128 |
Minor in Music Recording
A minor in music recording is offered through the Thornton School of Music to provide undergraduate students with the background necessary to enter the field of recording engineering and to familiarize them with the design needs of modern recording equipment. The minor is recommended to mechanical engineering majors with extensive musical training who would like to combine their technical and musical abilities while learning the engineering applications of physical and mathematical principles to the art of music recording. See the listing under the
USC Thornton School of Music.
Master of Science in Mechanical Engineering
Requirements for the Master of Science in mechanical engineering are the same as set forth in the general requirements. Six of the required units must be in AME 525 and AME 526 or courses in engineering analysis approved in advance in writing by the Department of Mechanical Engineering.
The specific sequence of courses that constitutes an acceptable program must be approved in advance.
Requirements for Graduation Without Thesis, 27 units total with 3.0 GPA: AME 525 and AME 526 or approved mathematics (6); 500 level courses in major department (12); approved 400 or 500 level courses (9).
With Thesis, 27 units total with 3.0 GPA: AME 525 and AME 526 or approved mathematics (6); 500 or 600 level courses in major department (12) not including thesis; maximum AME 594ab — thesis (4); approved 400 or 500 level units (5) (a maximum total of 8 units combining AME 590 and AME 594ab).
Recommended Programs of Study
The program of study depends upon the student's interest and background. During the first semester at USC, students must consult with a departmental faculty advisor in the area of concentration and draw up a plan of study, which must be approved by the advisor. Besides the common requirements, listed below are several areas in mechanical engineering with specific courses identified as core and core electives. Groups of courses in other combinations and from other departments within the university may be approved if a particular coordinated interest can be demonstrated. In some instances students whose background is not in mechanical engineering may be required to take additional course work.
Common Requirements
Engineering Analysis (6 units): AME 525, AME 526
Engineering electives (3-6 units): Approved 400-, 500- or 600-level courses
Engineering Design
Core courses (9 units): AME 503, AME 505, AME 509
Core electives (6 units): Two courses from AME 404, AME 527, AME 541, ASTE 520, ASTE 523, CE 529, SAE 549
Thermal and Fluid Sciences
Core courses (12 units): Four courses from one of the selected areas:
Combustion: AME 436, AME 513, AME 514, AME 530a
Fluid Dynamics: AME 457, AME 511, AME 530a, AME 535a
Heat Transfer: AME 457, AME 515, AME 516, AME 517
Core electives (6 units): Take two courses from the following list, not duplicating the above selection: AME 436, AME 457, AME 511, AME 513, AME 514, AME 515, AME 516, AME 517, AME 530a, AME 533, AME 535a, AME 535b, AME 537
Mechanics and Materials
Core courses (12 units): AME 509, AME 559, AME 560, AME 584
Core elective (3 units): One of AME 542, AME 588, CE 529a
Microelectromechanical Systems (MEMS)
Core courses (12 units): AME 455, AME 537, BME 551, EE 607
Core elective (3 units): One of AME 535a, ASTE 501a, ASTE 545
Mechanics and Materials
Core courses (12 units): AME 509, AME 559, AME 560, AME 584
Core elective (3 units): One of AME 542, AME 588, CE 529a
Microelectromechanical Systems (MEMS)
Core courses (12 units): AME 455, AME 537, BME 551, EE 607
Core elective (3 units): One of AME 535a, ASTE 501a, ASTE 545
Dynamics and Control
Students interested in this area may follow the M.S., Aerospace and Mechanical Engineering (Dynamics and Control) described below.
Master of Science in Aerospace and Mechanical Engineering (Dynamics and Control)
The Master of Science with emphasis in dynamics and control educates and trains multidisciplinary professionals in the modeling, analysis, simulation and control of complex time-evolutionary systems. It is a program of study that encompasses advanced analytical dynamics, nonlinear dynamical systems, linear and nonlinear dynamics and vibrations, and linear and nonlinear control. The program equips students to apply their knowledge to a variety of complex systems encountered in nature and society, especially those in civil, mechanical and aerospace engineering and applied mechanics.
Students will be given advisement in the first semester of their study. In addition to AME 525 and AME 526, students are required to take the following core courses: AME 521, AME 522, AME 524, AME 541, AME 552. Elective courses can be chosen in areas of specific interest to the student such as orbital dynamics, spacecraft control, aircraft dynamics and control, chaos and chaotic dynamics, random vibrations, computer control of mechanical systems and robotics. The program provides the graduate student with a broad, well-rounded, advanced education that can be applied to many specific, technologically advanced fields in which dynamics and control play a pivotal role.
Master of Science in Aerospace and Mechanical Engineering (Computational Fluid and Solid Mechanics)
See listing under
Aerospace Engineering Degrees.
Engineer in Mechanical Engineering
Requirements for the Engineer in Mechanical Engineering degree are the same as set forth in the general requirements. Six of the units required for the degree must be AME 690. Prior approval must be obtained from the committee before registration in AME 690.
Doctor of Philosophy in Mechanical Engineering
The Doctor of Philosophy in mechanical engineering is also offered. See
general requirements for graduate degrees.