This commentary expands the notion that models and modelling can be used as a basis to foster an integrated and authentic STEM education and STEM literacy. The aim is to synthesize key publications that document relationships between authenticity, models and modelling, and STEM education. The implications of the synthesis are as follows: authenticity must be viewed as a cornerstone of STEM literacy; models and modelling processes can bridge the gap between STEM disciplines through authentic practices; models and modelling should be used as a means to promote STEM literacy and the transfer of knowledge and skills between contexts, both in and out of the STEM disciplines; modelling activities can serve as a meaningful route toward authentic STEM education; teaching authentic modelling processes must be rooted in explicit and tested frameworks that are based on the practice of the STEM disciplines; and, authentic STEM education should be driven by developing interaction between STEM subjects in parallel with maintaining the integrity of each subject. If this vision is to be reinforced, it is of utmost importance that implementing any model-based authentic educational activities are underpinned by evidencebased frameworks and recommendations for teaching practice. It is therefore imperative that intended model-based pedagogies for STEM education classrooms are further researched, in order to contribute to an integrated STEM literacy.
When studying attitudes toward technology education, the affective attitudinal component has primarily been the focus. This study focuses on how the affective, cognitive and behavioral attitudinal components of technology education can be incorporated using a two-step survey: the traditional PATT-questionnaire (PATT-SQSE) and the recently developed Mitcham Score questionnaire. The aim of this study is to explore the relationship among the cognitive, affective and potential behavioural components of students’ attitudes toward technology in a Swedish context, using the PATT-SQ-SE instrument including the Mitcham score open items. Results of the analyses show that relationships among the attitudinal components are observable. The results also imply that relationships among the attitudinal components are different for girls than boys. A key factor for the participating students’ attitudinal relations was interest (affective component) in technology education. An individual interest in technology education was related to both the cognitive component and behavioral intention. Another key relationship, for girls, was that the cognitive component had a strong relationship with behavioral intention, which was not the case for boys. Based on the observed relations between the cognitive, affective and behavioural components we have identified two key implications for educational practice: Girls should learn a broader conception of technology in technology education, if we want them to pursue technology-related careers to a higher degree; Students’ interest in technology should be stimulated through engaging tasks in technology education.
Educational research on attitudes shows that both teaching and student learning are affected by the attitudes of the teacher. The aim of this study is to examine technology teachers' perceptions of and attitudes towards teaching technology in Swedish compulsory schools, focusing on teachers' perceived control. The following research question is posed: How do the teachers perceive self-efficacy and context dependency in teaching technology? Qualitative interviews were performed with 10 technology teachers in the compulsory school (ages 7-16), and the data was analysed using thematic analysis. Based on an attitude framework, three sub-themes of self-efficacy were found: experience, education and interest, subject knowledge, and preparation. Furthermore, four sub-themes of context dependency were found; collegial support, syllabus, resources and status. The results show that, according to the teachers in this study, self-efficacy mainly comes from experience, education and interest. Moreover, contextual factors can both limit and boost the teachers, but overall there are negative attitudes because of a lack of support and resources, which impedes the teaching. Teachers educated in technology education generally express more positive attitudes and thus seem to have advantages in relation to technology teaching, but still they sometimes express negative attitudes in the field of perceived control. Some implications of this study are that it is necessary to promote teacher education in technology and to reserve resources for technology education in schools, thereby supporting teachers in controlling contextual and internal factors that affect their teaching. This support to teachers is especially important if there is an intention for the subject to develop in new directions.
Today, technology education in Sweden is both a high-status and a low-status phenomenon. Positive values such as economic growth, global competitiveness and the sustainability of the welfare state are often coupled with higher engineering education and sometimes even upper secondary education. Negative values, on the other hand, are often associated with primary and lower secondary education in this subject. Within the realm of technology education at such lower levels of schooling in Sweden, different actors have often called for reformed curricula or better teacher training, owing to the allegedly poor state of technology education in schools. Recurring demands for a change in technology education are nothing unique from an historical point of view, however. In fact, the urge to influence teaching and learning in technology is much older than the school subject itself. The aim of this article is to describe and analyse some key patterns in technology education in Swedish elementary and compulsory schools from 1842 to 2010. This study thus deals with how technological content has developed over time in these school forms as well as how different actors in and outside the school have dealt with the broader societal view of what is considered as important knowledge in technology as well as what kind of technology has particular significance. The long period of investigation from 1842 to 2010 as well as a double focus on technology as scattered educational content and a subject called Technology make it possible to identify recurring patterns, which we have divided into three overarching themes: Technological literacy and the democratic potential of technological knowledge, The relationship between school technology and higher forms of technology education and The relationship between technology and science.
The results suggest that efforts to increase technology teachers' qualifications and establishing a fixed number of teaching hours and an overall teaching plan for the subject of technology may yield more positive attitudes among teachers toward technology teaching. In turn, this could improve the status of the subject as well as students' learning.
From a philosophical viewpoint, technological design is about connecting what is desirable with what is technically possible. Technology itself plays a major role in design processes, not only because technology development is what designing is all about, but also since the existing technology at any given point in time frames what is possible to achieve in terms of new outcomes. A limiting role of technology in design, education and other societal activities goes under the concept of technological determinism and has arguably been one of the most significant points of debate in the social sciences in the last decades. The aim of this article is to investigate how philosophical, sociological and historical research, as well as design and innovation research about technological determinism, could be fruitfully reconsidered in technology education. The analysis yielded three novel findings about the nature of technological determinism. First of all, technological determinism can take the form of an idea, theory or a way of explaining technology development in history or the present, but it can also take the form of actual material structures that-implicitly or explicitly-permeate and influence society, or, at least, this is what some researchers claim. Secondly, technological determinism is not just something that is the result of a bird's eye view of technology and society or when we study technology as part of the macro level of society. Determinism can appear on all levels, even the micro level. Thirdly, like its counterpart social/societal determinism, technological determinism is not necessarily a "bad" thing, but a natural result of design being a balance between what is societally desirable and technically possible. The most critical issue from the point of view of technological literacy is to promote the idea that it is humans that design and retain control over technology.
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