Problem-based learning in STEM: Facilitating Diversity and Change in Pre-college Engineering Education through Online Collaborative Teacher Communities in virtual STEMlabs (Work in Progress) (Diversity)

Svend Christiansen; Lykke Bertel; Bettina Dahl

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Conference: 2022 ASEE Annual Conference & Exposition
Location: Minneapolis, MN
Publication Date: August 23, 2022
Start Date: June 26, 2022
End Date: June 29, 2022
Conference Session: Pre-College Engineering Education Division Poster Session
Page Count: 8
DOI: 10.18260/1-2--41222
Permanent URL: https://peer.asee.org/41222
Download Count: 227

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Paper Authors

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Svend Christiansen Aalborg University

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Ph.D. Fellow at Aalborg University in cross-institutional collaboration in engineering in higher education. Prior practical experience as a research assistant working with STEM and Problem-based Learning. In addition, I have my master's degree in Techno-Anthropology, providing me with theoretical and practical socio-technical expertise.

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Lykke Bertel

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Associate professor in emerging technologies and problem-based learning in science and engineering education

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Bettina Dahl Aalborg University

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Associate professor, Aalborg Centre for Problem Based Learning in Engineering, Science and Sustainability under the auspices of UNESCO, Aalborg University, Denmark. Full professor, Department of Mathematics (math education), University of Bergen, Norway. Full name: Bettina Dahl Søndergaard/Soendergaard.

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Abstract

The gap between the need for and the number of STEM-educated individuals has become increasingly apparent, both globally and locally in many countries, e.g. in Denmark, where some areas see a rise in demand for STEM competencies up to as much as 88% over the last decade, with companies facing severe difficulties filling positions as a result. Additionally, research shows a decreasing interest in STEM-related disciplines in countries such as Denmark, contributing further to the problem of maintaining a sufficient pool of engineering-educated individuals and pre-college students choosing STEM-educations and careers. Especially girls tend to lose interest in STEM during grades 4-8, which indicates that these subjects currently fail to motivate and engage this student group and convey the possibilities related to STEM-education and career paths. Therefore, building upon research within these domains, it is crucial to examine global and local factors causing the gender gap and lack of diversity that exists in STEM-education and interest in some countries, as well as to develop didactical practices that focus on motivation and diversity in STEM and the acquisition of relevant competencies for the 21st century. Problem Based Learning (PBL) as a student-centered teaching approach has a focus on processes such as collaboration, critical thinking, and problem-solving and has been shown to be efficient as a tool and framework for didactical interventions within a STEM context, particularly in higher education. However, research on the application of PBL as a method for facilitating STEM-motivation and competencies in K-12 is still rather limited.

This paper presents the reasoning behind and first phases of LabSTEM North, a Danish research project which aims to explore central and contextual problems related to recruitment and motivation in STEM and develop a coherent problem-based STEM-didactics through collaboration and co-creation in digitally supported professional learning communities for teachers across the entire K-12 system in Northern Jutland, Denmark. Through this, the LabSTEM North project aims to motivate students’ interest in STEM-related educations and career paths and facilitate a change in the local K-12 system to counter the so-called “leaky pipeline” of potential STEM-candidates, including women and minorities.

Following a Design-Based Research (DBR) model, LabSTEM North incorporates multiple iterations based on the involved teachers’ understandings, their professional practice, and co-creation of problem-based learning designs across STEM subjects, student age groups, and institutional boundaries. During the progress of the LabSTEM North project, an objective is also the production of open-access teaching material that the involved researchers and teachers in collaboration are designing and testing in practice. The project is currently in the stage of establishing digital STEMlabs and online communities in collaboration with 13 pre-college schools and educational institutions with more than 80 teachers participating in workshops and working groups to co-create the first iteration of a new problem-based based STEM teaching practice. Thus, this paper also intends to provide early experiences and valuable insights into the potentials and challenges of building digitally supported STEMlabs and online teacher communities for the development of boundary-crossing and engaging STEM-teaching and learning in pre-college education.

Citation
Format

Christiansen, S., & Bertel, L., & Dahl, B. (2022, August), Problem-based learning in STEM: Facilitating Diversity and Change in Pre-college Engineering Education through Online Collaborative Teacher Communities in virtual STEMlabs (Work in Progress) (Diversity) Paper presented at 2022 ASEE Annual Conference & Exposition, Minneapolis, MN. 10.18260/1-2--41222

TY  - CPAPER
AB  - The gap between the need for and the number of STEM-educated individuals has become increasingly apparent, both globally and locally in many countries, e.g. in Denmark, where some areas see a rise in demand for STEM competencies up to as much as 88% over the last decade, with companies facing severe difficulties filling positions as a result. Additionally, research shows a decreasing interest in STEM-related disciplines in countries such as Denmark, contributing further to the problem of maintaining a sufficient pool of engineering-educated individuals and pre-college students choosing STEM-educations and careers. Especially girls tend to lose interest in STEM during grades 4-8, which indicates that these subjects currently fail to motivate and engage this student group and convey the possibilities related to STEM-education and career paths. Therefore, building upon research within these domains, it is crucial to examine global and local factors causing the gender gap and lack of diversity that exists in STEM-education and interest in some countries, as well as to develop didactical practices that focus on motivation and diversity in STEM and the acquisition of relevant competencies for the 21st century. Problem Based Learning (PBL) as a student-centered teaching approach has a focus on processes such as collaboration, critical thinking, and problem-solving and has been shown to be efficient as a tool and framework for didactical interventions within a STEM context, particularly in higher education. However, research on the application of PBL as a method for facilitating STEM-motivation and competencies in K-12 is still rather limited.



This paper presents the reasoning behind and first phases of LabSTEM North, a Danish research project which aims to explore central and contextual problems related to recruitment and motivation in STEM and develop a coherent problem-based STEM-didactics through collaboration and co-creation in digitally supported professional learning communities for teachers across the entire K-12 system in Northern Jutland, Denmark. Through this, the LabSTEM North project aims to motivate students’ interest in STEM-related educations and career paths and facilitate a change in the local K-12 system to counter the so-called “leaky pipeline” of potential STEM-candidates, including women and minorities.



Following a Design-Based Research (DBR) model, LabSTEM North incorporates multiple iterations based on the involved teachers’ understandings, their professional practice, and co-creation of problem-based learning designs across STEM subjects, student age groups, and institutional boundaries. During the progress of the LabSTEM North project, an objective is also the production of open-access teaching material that the involved researchers and teachers in collaboration are designing and testing in practice. The project is currently in the stage of establishing digital STEMlabs and online communities in collaboration with 13 pre-college schools and educational institutions with more than 80 teachers participating in workshops and working groups to co-create the first iteration of a new problem-based based STEM teaching practice. Thus, this paper also intends to provide early experiences and valuable insights into the potentials and challenges of building digitally supported STEMlabs and online teacher communities for the development of boundary-crossing and engaging STEM-teaching and learning in pre-college education.
AU  - Svend Christiansen
AU  - Lykke Bertel
AU  - Bettina Dahl
CY  - Minneapolis, MN
DA  - 2022/08/23
PB  - ASEE Conferences
TI  - Problem-based learning in STEM: Facilitating Diversity and Change in Pre-college Engineering Education through Online Collaborative Teacher Communities in virtual STEMlabs (Work in Progress) (Diversity)
UR  - https://peer.asee.org/41222
DO  - 10.18260/1-2--41222
ER  -