Course syllabus adopted 2026-02-26 by Head of Programme (or corresponding).
Overview
- Swedish nameNaturvetenskapligt och tekniskt lärande
- CodeCLS060
- Credits7.5 Credits
- OwnerMPLOL
- Education cycleSecond-cycle
- Main field of studyTechnology and Learning
- DepartmentCOMMUNICATION AND LEARNING IN SCIENCE
- GradingUG - Pass, Fail
Course round 1
Teaching language
SwedishApplication code
40120Maximum participants
35Open for exchange students
NoOnly students with the course round in the programme overview.
Credit distribution
Module | Sp1 | Sp2 | Sp3 | Sp4 | Summer | Not Sp | Examination dates |
|---|---|---|---|---|---|---|---|
| 0122 Written and oral assignments 7.5 c Grading: UG | 7.5 c |
In programmes
- KPLOL - Learning and Leadership, Supplementary Study Programme, Year 1 (compulsory)
- MPLOL - Learning and Leadership, Year 1 (compulsory)
Examiner
- Eva Ask
- Lecturer of the Practice, Engineering Education Research, Communication and Learning in Science
Eligibility
General entry requirements for Master's level (second cycle)Applicants enrolled in a programme at Chalmers where the course is included in the study programme are exempted from fulfilling the requirements
Specific entry requirements
English 6 (or by other approved means with the equivalent proficiency level)Applicants enrolled in a programme at Chalmers where the course is included in the study programme are exempted from fulfilling the requirements
Course specific prerequisites
The courses Mathematics, teaching and assessment (MVE375) and The purpose and conditions of education (CIU221). Knowledge of sustainable development corresponding to Chalmers local requirements for environment and sustainable development (MHU).Aim
Students should develop their ability to plan and carry out courses, lessons and activities in their scientific or technical subject in relation to formal course/subject requirements and deliberate educational choices in a way that support learning among all pupils and make equal and legal assessment and grading possible.Learning outcomes (after completion of the course the student should be able to)
- plan teaching that supports students' learning in physics, chemistry or technology at upper secondary school level based on subject syllabi, relevant sources and conscious pedagogical choices
- design assessments in physics, chemistry or technology at the upper secondary school level that create conditions for equal and legal grading
- reflect on their subject competence and their educational development needs
- plan teaching in physics, chemistry or technology at upper secondary school level based on sustainable development
Content
The course covers the following themes:- Planning and implementing teaching (in chemistry, physics or technology).
- Assessing and grading learning (in chemistry, physics or technology).
- Practically oriented pedagogical content knowledge for chemistry, physics and technology.
- Assessment and development of one's own capabilities.
- Education for sustainable development.
A greater part of the activities of the course are contextualised in the introductory chemistry, physics and technology courses at the upper secondary school level. Overall, the emphasis in the course is on practical rather than theoretical dimensions, even if some theoretical perspectives are covered.
Organisation
Since students with different subjects (Chemistry, Physics or Technology) take part in the course, it is structured around a combination of seminars attended by everyone and subject specific assignments and lessons. The subject specific lessons are to a large extent conducted with the help of practicing upper secondary school teachers or in some cases people with other relevant competencies.Literature
Gemensam litteratur
Orientering och verktyg för lärande:
- Brent, , & Felder, R. M. (2016). Teaching and Learning STEM: A practical guide. Andra upplagan
- Lärportalen. Modul Naturvetenskapens karaktär och arbetssätt.
- Forskning för klassrummet.
- Skolverket Didaktiska modeller
- Skolforskningsinstitutet (2020). Laborationer i naturvetenskapsundervisningen.
Lärande för hållbar utveckling:
- Dessen Jankell, (2019). Globala målen i undervisningen. Läromaterial från Skolverket.
- Gyberg, Löfgren (2016) Knowledge outside the box-sustainable development education in Swedish schools
- Hedenus, F., Persson, M., & Sprei, F. (2016). Sustainable Development: History, Definition & the role of the engineer.
- Lundegård, , Malmberg, C., Hasslöf, H., Dessen Jankell, L., & Urbas, A. (2019) Didaktiska perspektiv på hållbar utveckling.
- Lärportalen. Modul Leda förändring, gy. Del6.
- Lärportalen. Modul Hållbar utveckling, gy.
- Sjoström, Clucas, Eilks(2025). Two-Eyed Seeing as a didaktik model in Education for Sustainability
- Sterner, Nordborg, Olsson, Ferring och Holmén (2021)"Klimatet - en ödesfråga där fakta, värderingar och känslor möts" (s. 61-77) Sterner et al 2021.
- Tilbury (2011). Education for Sustainable Development: An Expert Review of Processes and Learning.
- UN, Transforming our world: The 2030 agenda for sustainable
Bedömning och betygssättning
- Skolverket Allmänna råd från skolverket(2022)
- Skolverket (2022). Så använder du ämnesplanerna.
- Skolverket (2023). Betyg i gymnasieskolan.
- Skolverket (2023). Ämnesbetyg på gymnasial nivå. GY25
- Brent, , & Felder, R. M. (2016). Teaching and Learning STEM: A practical guide.
Styrdokument programplaner, kursplaner och ämnesplaner från skolverket
- Program och ämnesplaner (både GY11 och GY25)
- Kursplaner grundskolan
Kemi, fysik och teknikfördjupning:
Bok (utvalda kapitel):
- Angell, Carl (red.) (2011). Fysikkdidaktikk. Kristiansand: Høyskoleforl. Språk: norska (bokmål). [Låneexemplar ]
- Eilks, Ingo and Hofstein, (2013) Teaching Chemistry: A Studybook : A Practical Guide and Textbook for Student Teachers, Teacher Trainees and Teachers. Sense Publishers.
- de, Vries, Marc J. (Red.) (2018). Handbook of Technology Education. Springer International Publishing,
- de, Vries, Marc J. (2016). Teaching about Technology. 2a uppl. Springer International Publishing,
Examination including compulsory elements
The course is examined through a series of assignments that are presented orally, practically and/or in writing. Participation is mandatory during the subject didactic in-depth sessions as well as the oral examinations. In order to pass the course all assignments must be completed.Observe that to be able to register for the course Learning and leadership in practice 2 (CIU212) one needs to have passed this course.
The course examiner may assess individual students in other ways than what is stated above if there are special reasons for doing so, for example if a student has a decision from Chalmers about disability study support.