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Resilience, science, technology, engineering, and mathematics (STEM), and anger: A linguistic inquiry into the psychological processes associated with resilience in secondary school STEM learning

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Version 2 2023-08-10, 08:25
Version 1 2022-03-14, 16:53
journal contribution
posted on 2023-08-10, 08:25 authored by S Hall, R McGill, S Puttick, John MaltbyJohn Maltby

Aim

To examine resilience in Science, Technology, Engineering, and Mathematics (STEM) learning within an ecological model, identifying the psychological processes associated with resilient, and non-resilient learning to develop a framework for promoting STEM resilience.


Sample and method

From a sample of secondary-school students (n = 4,936), 1,577 students who found their STEM lesson difficult were identified. Students were assessed on three resilience capabilities and asked to write a commentary on how they responded to the lesson.


Results

Factor analysis revealed that resilience in STEM learning could be positioned within the ecological systems model, with students’ resilience being comprised of three capabilities; the ability to quickly and easily recover (Recovery), remain focussed on goals (Ecological), and naturally adjust (Adaptive capacity). Using a linguistic analysis programme, we identified the prevalence of words within the student commentaries which related to seven psychological processes. Greater ability to recover was negatively related to negative emotional processes. To increase the specificity of this relationship, we identified high and low resilient students and compared their commentaries. Low resilient students used significantly more anger words. Qualitative analysis revealed interpersonal sources of anger (anger at teacher due to lack of support) and intrapersonal sources of anger (including rumination, expression and control, and seeking distraction).


Conclusions

Anger is a key process that distinguishes students who struggle to recover from a difficult STEM lesson. An ecological systems model may prove useful for understanding STEM resilience and developing intervention pathways. Implications for teacher education include the importance of students’ perceptions of teacher support.

Funding

Leverhulme Trust (ID: RPG-2018-368)

History

Author affiliation

College of Life Sciences, University of Leicester

Version

  • VoR (Version of Record)

Published in

British Journal of Educational Psychology

Volume

92

Issue

3

Pagination

1215-1238

Publisher

Wiley

issn

0007-0998

Acceptance date

2022-02-21

Copyright date

2022

Available date

2023-08-10

Language

en

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