The graduate has reliably demonstrated the ability to:

1. Fabricate and build electrical, electronic and mechanical components and assemblies in accordance with operating standards, job requirements and specifications.
2. Analyze, interpret and produce electrical, electronic and mechanical drawings and other related technical documents and graphics necessary for electromechanical design in compliance with industry standards.
3. Select and use a variety of troubleshooting techniques and equipment to assess, modify, maintain and repair electromechanical circuits, equipment, processes, systems and subsystems.
4. Modify, maintain, and repair electrical, electronic and mechanical components, equipment, and systems to ensure that they function according to specifications and to optimize production.
5. Design and analyze mechanical components, processes and systems by applying engineering principles and practices.
6. Design, analyze, build, select, commission, integrate and troubleshoot a variety of industrial motor controls and data acquisition devices and systems, digital circuits, passive AC and DC circuits, active circuits and microprocessor-based systems.
7. Install and troubleshoot computer hardware and programming to support the electromechanical engineering environment.
8. Analyze, program, install, integrate, troubleshoot and diagnose automated systems including robotic systems.
9. Establish and maintain inventory, records and documentation systems to meet organizational and industry standards and requirements.
10. Select and purchase electromechanical equipment, components and systems that fulfill job requirements and functional specifications.
11. Specify, coordinate and apply quality-control and quality-assurance programs and procedures to meet organizational standards and requirements.
12. Work in compliance with relevant industry standards, laws and regulations, codes, policies and procedures.
13. Develop strategies for ongoing personal and professional development to enhance work performance and to remain current in the field and responsive to emergent technologies and national and international standards.
14. Contribute as an individual and a member of an electromechanical engineering team to the effective completion of tasks and projects.
15. Design and analyze electromechanical systems by interpreting fluid mechanics and the attributes and dynamics of fluid flow used in hydraulic and fluid power systems.
16. Contribute to project management through planning, implementation and evaluation of projects, and monitoring of resources, timelines and expenditures as required.