Integrated Technician (AAT)(Plan Code: MATITAPT)
Academic Plans, known as programs, include an overview description and a summary of program requirements. You can search the online catalog via the Academic Plan links on the right for a desired program or a specific course information.
Updated 9/19/25. See Degree Corrections for details.
| Code | Title | Credits/Units |
|---|---|---|
| Communication Skills | ||
| PTWR 135 | Introduction to Applied Technical Writing | 5 |
| Computational Skills | ||
| MATH 103 | College Trigonometry | 5 |
| Human Relations | ||
| AM 101 | Advanced Manufacturing Career Exploration | 5 |
| Major Area Requirements | ||
| AM 102 | OSHA 10 Safety | 1 |
| AM 105 | Welding, Cutting & Fabrication Processes | 6 |
| AM 108 | Blueprint and Schematic Reading | 5 |
| AM 110 | Manual Manufacturing I | 3 |
| MATH 111 | College Algebra | 5 |
| or MATH 110 | College Algebra With Support | |
| HLTH 120 | Adult CPR and First Aid | 1 |
| AM 120 | Manual Manufacturing II | 3 |
| AM 130 | Intro to SolidWorks | 5 |
| AM 150 | Intro to Programming & Problem Solving | 5 |
| AM 200 | Applied Material Science | 5 |
| AM 208 | Applied Metrology | 3 |
| AM 210 | Additive Manufacturing | 5 |
| AM 215 | Robotics I | 4 |
| AM 216 | Robotics II | 4 |
| AM 217 | Robotics III | 4 |
| AM 220 | Subtractive Manufacturing I | 6 |
| AM 230 | Subtractive Manufacturing II | 6 |
| AM 235 | Computer Aided Machining (CAM) | 3 |
| AM 250 | Systems Integration | 3 |
| AM 260 | Capstone Lab | 6 |
| Total Credits/Units | 98 | |
Program Outcomes
Program outcomes are overarching skills that are emphasized and reinforced throughout several courses in a specific program; they are measurable statements that define what students should know or be able to do by the end of a certificate or degree at Clark College. After successful completion of this program, students will be able to:
- Function effectively as a member of a professional team in an advanced manufacturing environment.
- Apply Standard Operating Procedures (SOP) to safely operate manufacturing tools and equipment.
- Apply Computer Aided Drafting (CAD), Computer Aided Machining (CAM), Geometric Dimensioning Tolerance (GDT), mathematic principles, precision measurement, and Quality Assurance (QA) methods when producing manufacturing assemblies.
- Apply material identification and material properties to advanced manufacturing processes.
- Use specific software programs for Robotics, Additive Manufacturing (AM) and Subtractive Manufacturing (SM) processes.