Summer Course

Energy Practicum

Instructors:

2 Credits

NRGY 195

This course is not offered online.

Sample Syllabus

Prereq., NRGY 101 (NRG 101), M 121 (MATH 111/MAT 118) or consent of instructor. Same as CCS 191. The practicum provides students with a supervised field experience. Students will gain hands-on experience with energy specific technologies in a fast-paced creative environment. This course increases students' occupational awareness and professionalism. 

Dates

2014 dates: June 16-27, 2014

We recommend you also sign up for ETEC 113 (1 cr) the week before the practicum (June 9-13, 2014).  If you have questions about your specific situation, please consult your advisor.

Location

Missoula, MT
Judith Gap, MT (optional field trips)
Browning, MT (optional field trips)

About the Course

The Energy Technology degree may be earned 100% online with two exceptions: Campus residency is currently required for completion of ETEC 113 Circuits Lab (offered during Week 1 of the Summer Session) and NRGY 195 Practicum (offered during Weeks 2 and 3 of the Summer Session). Students with a Distance Only designation will need to fill out a Change of Status request at http://umonline.umt.edu/student/change_request.php prior to registering for these face to face courses on the Missoula College campus (remember to change your status back to Distance Only following the completion of the summer term).

The practicum provides students with a hands-on field experience in developing a novel energy technology. Students will work in teams to design, build, and test energy technologies of their choosing. In addition to promoting creativity and task completion, this course increases students’ occupational awareness and professionalism by exposing them to local energy industry leaders and giving them the opportunity to present their work to their peers.

A student cohort will be paired with a faculty supervisor to participate in applied learning activities. Example activities include experiments in electrical circuitry, AC/DC invertors and diodes; installation, deconstruction, construction, and maintenance of wind turbine and solar PV systems; operation and maintenance of fuel-based electrical generators; experiments involving test equipment such as multimeters and oscilloscopes; and practice in troubleshooting and problem solving techniques. The practice of health and safety procedures will be stressed.

Course Objectives

Upon completion of this course, the student will:

  • Gain practical experience with energy production systems.
  • Describe and demonstrate proper safety procedures for working with energy generation systems.
  • Describe and demonstrate proper procedures for installing, maintaining, and troubleshooting energy generation systems.
  • Describe and demonstrate proper usage of test equipment and tools used in energy generation systems.
  • Interact with colleagues in a professional work environment.
  • Participate in a representative range of professional activities in the work setting.

Dress Code

Please plan and dress appropriately for each activity. Some activities are lab-based in a controlled classroom environment. Shorts and sandals are acceptable for these sessions. Hard hats, work clothes (long pants and sturdy shoes), sunblock, raincoats, sunglasses, and water will be required for all off-campus field experience. Hard hats, tools, and lab supplies will be provided. Please pack a sack lunch and any needed personal items for the trip to Judith Gap.