The course is included in these curricula and study modules
- Plastics technology 2007 (swedish) - Electrical engineering
- Plastics technology 2008 (swedish) - Electrical engineering and distributed energy
- Plastics technology 2009 (swedish) - Electrical engineering and distributed energy
- Plastics technology 2010 (swedish) - Electrical engineering and distributed energy
- Plastics technology 2011 (swedish) - Electrical engineering and distributed energy
- Plastics technology 2012 (swedish) - Electrical engineering and distributed energy
- Plastics technology 2013 (swedish) - Electrical engineering and distributed energy
- Distributed energy systems 2009 - Electrical engineering
- Distributed energy systems 2010 - Electrical engineering
- Distributed energy systems 2011 - Electrical engineering
- Distributed energy systems 2012 - Electrical engineering
- Distributed energy systems 2013 - Electrical engineering
- Environmental and energy engineering 2014 - Mathematics and electrical technology
- Environmental and energy engineering 2015 - Mathematics and electrical technology
- Environmental and energy engineering 2016 - Mathematics and electrical technology
- Environmental and energy engineering 2017 - Mathematics and electrical technology
- Environmental and energy engineering 2018 - Mathematics and electrical technology
- Materials processing technology 2014 (swe) - Electrical engineering and distributed energy
- Materials processing technology 2015 (swe) - Electrical engineering and distributed energy
- Materials processing technology 2017 - Electrical engineering
- Materials processing technology 2018 - Electrical engineering
The course takes place in period
2 (2019-10-28 to 2019-12-31)
Level/category
Professional studies
Teaching language
Swedish
Type of course
Compulsory
Cycle/level of course
First
Recommended year of study
1
Total number of ECTS
5 cr
Competency aims
The aim of the course is that student will
understand the fundamentals of electrical systems
Learning outcomes
The student will understand theoretical
fundamentals of DC- and AC-circuits and can perform
calculations on electric circuits.
Course contents
Basics of electrical theory:
- Ohm's Law, Resistance, Inductance, Capacitance
- Theory of DC- and AC-circuits, calculations
Prerequisites and co-requisites
None
Previous course names
None
Additional information
Compulsory participation in lectures and exercises as stipulated.
Recommended or required reading
Lecturing compendium
Exercise compendium
Additional Internet-based material
Study activities
- Lectures - 12 hours
- Individual- and group instruction - 30 hours
- Practical exercises - 80 hours
- Individual studies - 13 hours
Workload
- Total workload of the course: 135 hours
- Of which autonomous studies: 135 hours
- Of which scheduled studies: 0 hours
Mode of Delivery
Participation in tuition
Assessment methods
Exams (written-, oral-, home-)
Assessment requirements
Passed exam
Teacher
- Anukka Harri
- Rancken Kim
Examiner
Rancken Kim
Home page of the course
Group size
No limit (61 students enrolled)
Assignments valid until
Until date 2018-05-31
Course enrolment period
2019-10-14 to 2019-11-10
Assessment methods
Date of examination will be announced later - Exams
Date | Time | Room | Title | Description | Organizer |
---|---|---|---|---|---|
2019-10-30 | 13:15 - 16:00 | D398 | Teoretisk elektroteknik | Anukka Harri | |
2019-11-12 | 08:15 - 12:00 | D4107-08 | Teoretisk elektroteknik | Rancken Kim | |
2019-11-18 | 08:15 - 15:00 | D4107-08 | Teoretisk elektroteknik | Rancken Kim | |
2019-11-25 | 08:15 - 14:00 | D4107-08 | Teoretisk elektroteknik | Rancken Kim | |
2019-12-02 | 08:15 - 14:00 | D4107-08 | Teoretisk elektroteknik | Rancken Kim | |
2019-12-09 | 08:15 - 14:00 | D4107-08 | Teoretisk elektroteknik | Rancken Kim | |
2019-12-16 | 08:15 - 16:00 | D398 | Teoretisk elektroteknik | Rancken Kim | |
2019-12-18 | 09:00 - 11:30 | D4107-08 | Teoretisk elektroteknik TENT | Rancken Kim | |
2020-01-09 | 12:00 - 14:15 | D4107-08 | TET Omtent 1, Omvandlare Omtent 1 | Rancken Kim | |
2020-01-21 | 14:00 - 16:15 | D4106 | TET Omtent 2, Omvandlare Omtent 2 | Rancken Kim |