Die schwedische Schulreform

Ohne Zusammenfassung     

Policy into practice on sustainable development related teaching in higher education in Turkey

This research explores the current status of implementing policy in sustainable development related teaching in higher education in Turkey. Turkish higher education policy has included increased commitment to sustainable development in recent years. However, there has not been much research conducted on its implementation. Hence, this study involves assessing the current status of sustainable development in teaching at higher education institutions (HEIs) in Turkey. Regarding the research design, a systematic review of accumulated sustainable development related teaching in all 193 HEIs in Turkey (as of the 2015–2016 academic year) was carried out. The accumulated programmes are categorised by occupation concerning sustainable development for the future of Turkey, and the courses are presented within those categories. Whilst many programmes and courses related to sustainable development were identified, the data also reveals the following features: the repetition of same courses; disciplinary partiality, particularly on environmental engineering; disciplinary conservatism and the lack of interdisciplinary practice in general; and last but not least, the differences between what sustainable development means in the European higher education political initiative and what the state of practice is in Turkish higher education.     

Impacts of a university–school partnership on middle school students' fractional knowledge: A quasiexperimental study

In this quasiexperimental study, the authors investigated the effects of university within school partnership model, within which faculty members acted as teacher-researchers to improve fractional knowledge among middle school (Grades 5–8) students. Students in nine Grade 6 mathematics classes from two public middle schools in Turkey were assigned to two conditions: University within school model instruction and traditional instruction. Pre- and posttest data showed that the students exposed to instruction through the university within school partnership model significantly outperformed their traditional instruction peers on the fractions test. Results indicated that students made significant gains in fractional knowledge in the experimental classrooms and in different subgroup populations. It was suggested that a substantial amount of mathematical infusion through partnership could have a positive impact on middle school students' fractional knowledge. The educational implications of the study were also discussed.     

Designing,implementing and maintaining a first year project course in electrical engineering

Being a modern electrical engineer does not only require state of the art skills in areas such as transfer and processing of information, electronics, systems engineering, and biomedical electrical engineering; it also requires generic engineering skills such as oral and written communication, team building, interpersonal skills, and the ability to take the responsibility of solving assigned tasks. In the development of a new electrical engineering curriculum, it was considered a challenge to introduce these generic engineering skills in a more applicable way. The approach described in this paper has been very successful in implementing and maintaining a challenging first year project based engineering course with a high level of training of generic engineering skills.     

Application of experiential learning to improve student engagement and experience in a mechanical engineering course

ABSTRACT

This paper introduced how a mechanical engineering course was redesigned by applying experiential learning theory to improve student engagement and learning experience. Design of machine elements has been considered by students to be a difficult course. Traditional teaching methods tend not to be effective in engaging students. Experiential learning is a philosophy of learning by doing. In applying an experiential learning approach to the course, the design project and workshop activities were restructured in such a way that students were engaged in direct experience and focused reflection to construct knowledge. By exploring a physical gearbox model, working on subtasks for the design project, having group discussions, raising questions, getting feedback, and moving forward for next subtasks, students experienced the learning cycles of ‘DO, OBSERVE, THINK, and PLAN’ many times. Course survey results showed that application of experiential learning helped to improve student engagement and learning experience significantly.     

Some Student Misconceptions in Chemistry: A Literature Review of Chemical Bonding

Students' misconceptions before or after formal instruction have become a major concern among researchers in science education because they influence how students learn new scientific knowledge, play an essential role in subsequent learning and become a hindrance in acquiring the correct body of knowledge. In this paper some students' misconceptions on chemical bonding reported in the literature were investigated and presented. With this aim, a detailed literature review of chemical bonding was carried out and the collected data was presented from past to day historically. On the basis of the results some suggestions for teaching were made.     

The Impact of STEM Attitude and Thinking Style on Computational Thinking Determined via Structural Equation Modeling

Journal of Science Education and Technology - This study aimed to investigate the relationships among computational thinking (CT) skills, science, technology, engineering and mathematics (STEM)...     

Dewey and mathematical practice: revisiting the distinction between procedural and conceptual knowledge

We identify a recent trend in school mathematics as well as in some of the research literature in mathematics education: an emphasis on the practical uses of mathematics and an increased emphasis on verbalizations as opposed to numerical and computational skills. With tools provided by John Dewey, an early advocate of contextual and practical knowledge, we analyse the common research framework for discussing mathematical knowledge in terms of the procedural and the conceptual. We argue that procedural and conceptual knowledge should not be seen as opposites, and that the tendency to treat them as such might be avoided by emphasising the notion of operational skill. We argue that this is important in order for the students to gain both the contextual knowledge and the computational skill entailed in mathematical knowledge.