The course is included in these curricula and study modules
- Electrical engineering 2005 - Mathematics
- Electrical engineering 2004 (automation) - Mathematics
- Electrical engineering 2004 (telecommunications) - Mathematics
- Electrical engineering 2006 - Mathematics
- Information technology 2004 - Mathematics
- Mechanical and production engineering 2004 (polymer technology) - Mathematics
- Mechanical and production engineering 2004 (manufacturing automation) - Mathematics
- Media technology 2006 - Mathematics
- Media technology 2005 - Mathematics
- Media technology 2004 - Mathematics
- Plastics technology 2008 (swedish) - Mathematics
- Plastics technology 2009 (swedish) - Mathematics
- Plastics technology 2010 (swedish) - Mathematics
- Information- and mediatechnology 2007 (media technology) - Mathematics and physics
- Information- and mediatechnology 2007 (electrical engineering) - Mathematics and physics
- Information- and mediatechnology 2008 (electrical engineering) - Mathematics and physics
- Information- and mediatechnology 2008 (media technology) - Mathematics and physics
- Information- and mediatechnology 2009 (media technology) - Mathematics and physics
- Information- and mediatechnology 2010 (media technology) - Mathematics and physics
- Information- and mediatechnology 2011 (media technology) - Mathematics and physics
Level/category
Teaching language
Swedish
Type of course
Compulsory
Recommended year of study
2
Total number of ECTS
5 cr
Competency aims
The objective of this course is to introduce students to ordinary differential equations and the Laplace transforms
Learning outcomes
The students are expected to
- know different types of differential equations
- be able to develop mathematical models that can be solved as differential equations
- be able to solve first order and linear second order differential equations
- be able to solve differential equations by means of Laplace transform methods
Course contents
- Mathematical modeling
- Ordinary differential equations
- Systems of differential equations
- The Laplace transform
- Difference equations
Prerequisites and co-requisites
Elementary course in calculus
Recommended or required reading
Lecture notes and auxiliary material
Study activities
- Lectures - 30 hours
- Exercise based learning - 60 hours
- Individual studies - 30 hours
- - 13 hours
Workload
- Total workload of the course: 133 hours
- Of which autonomous studies: 43 hours
- Of which scheduled studies: 90 hours
Mode of Delivery
Participation in tuition
Assessment methods
Exams
Assessment requirements
To pass the course the student should pass the following examinations:
Examination 1 ....
Examination 2.... etc.
(examinations include written examination tests, demonstrations and presentations, reports and produktions, essays, and also presence at specified occasions)
The examinations contribute to the final grade as follows: ...
Teacher
Skön Kim
Examiner
Skön Kim
Home page of the course
Group size
No limit
Course completion date
Date for course completion will be announced later
Assignments valid until
12 months after course has ended
Assessment methods
Date of examination will be announced later - Exams