Anne-Sofie Nyström scite author profile

Academic achievement is regarded an indicator of the success of individuals, schools, universities and countries. 'Success' is typically measured using performance indicators such as test results, completion rates and other objective measures. By contrast, in this article we explore students' subjective understandings and constructions of success, and discourses about 'successful' students in higher education contexts that are renowned for being demanding and pressured. We draw on data from 87 semistructured interviews with students and staff on law, medicine and engineering physics programmes in a prestigious university in Sweden. We focus particularly upon academic expectations, effort levels, and programme structures and cultures. Achieving top grades while undertaking a range of extracurricular activities was valorised in all contexts. Top grades were especially impressive if they were attained without much effort (especially in engineering physics) or stress (especially in law and medicine); we introduce a new concept of 'stress-less achievement' in relation to the latter. Furthermore, being sociable as well as a high academic achiever signified living a 'good life' and, in law and medicine, professional competence. We discuss the implications of the dominant constructions of success, concluding that (upper) middle-class men are most likely to be read as 'successful students' , especially in engineering physics.

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The identity turn in science education research: a critical review of methodologies in a consolidating field

Danielsson

King

Godec

et al. 2023

Cult Stud of Sci Educ

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This manuscript reflects on the affordances and limitations of methodological approaches commonly adopted by science education researchers examining learner identities. Our aims are to unpack the relative strengths and weaknesses of such approaches and note their respective prevalence. In so doing, we identify and critique studies which we consider exemplify the different approaches and, in turn, note the direction of fruitful developments and the nature of key challenges. From our review of the field, we suggest that three discrete methodological approaches can be identified: macro-studies within a psychological tradition; macro-studies within a sociological tradition; and micro-studies within an interpretive tradition. Our review comprised a critical analysis of papers included in the Web of Science databases published between 1998 and 2018. A total of 198 papers examining aspects of learner identity relating to science were identified. Of these, the majority (146) were categorised as micro-studies within an interpretive tradition. We discuss the implications of methodological choices for the advancement of understanding and further note ambiguities in the field particularly in relation to the ways in which learner identity research is conceived. We also raise questions for the field relating to the ways in which findings may be scaled, and how the field might develop to allow stronger theoretical and conceptual coherence.

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Young Peoples’ Online Science Practices as a Gateway to Higher Education STEM

et al. 2023

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The purpose of this manuscript is to explore how students perceive that online practices have enabled their participation in university physics programmes. In order to conceptualise how students bridge their science participation across physical and online spaces, we make use of the learning ecology perspective. This perspective is complemented with the notion of science capital, analysing how students have been able to strengthen different aspects of science capital through online participation. Data has been generated through semi-structured interviews guided by a timeline, constructed in collaboration between the interviewer and the interviewee. Twenty-one students enrolled in higher education physics have been interviewed, with a focus on their trajectories into higher education physics. The findings focus on four students who in various ways all have struggled to access science learning resources and found ways to utilise online spaces as a complement to their physical learning ecologies. In the manuscript, we show how online practices have contributed to the students’ learning ecologies, e.g. in terms of building networks and functioning as learning support, and how resources acquired through online science practices have both use and exchange value in the wider science community. Online science participation is thus both curiosity driven and founded in instrumental reasons (using online tutoring to pass school science). Furthermore, we argue that online spaces have the potential to offer opportunities for participation and network building for students who do not have access to science activities and science people in their everyday surroundings.The purpose of this manuscript is to explore how students perceive that online practices have enabled their participation in university physics programmes. In order to conceptualise how students bridge their science participation across physical and online spaces, we make use of the learning ecology perspective. This perspective is complemented with the notion of science capital, analysing how students have been able to strengthen different aspects of science capital through online participation. Data has been generated through semi-structured interviews guided by a timeline, constructed in collaboration between the interviewer and the interviewee. Twenty-one students enrolled in higher education physics have been interviewed, with a focus on their trajectories into higher education physics. The findings focus on four students who in various ways all have struggled to access science learning resources and found ways to utilise online spaces as a complement to their physical learning ecologies. In the manuscript, we show how online practices have contributed to the students’ learning ecologies, e.g. in terms of building networks and functioning as learning support, and how resources acquired through online science practices have both use and exchange value in the wider science community. Online science participation is thus both curiosity driven and founded in instrumental reasons (using online tutoring to pass school science). Furthermore, we argue that online spaces have the potential to offer opportunities for participation and network building for students who do not have access to science activities and science people in their everyday surroundings.

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Negotiating Achievement: Students’ Gendered and Classed Constructions of (Un)Equal Ability

Nyström¹

2013

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