Interdisciplinary project types in engineering education

Problem- and project-based learning (PBL) is often highlighted as a valuable approach for addressing the need for interdisciplinarity in engineering education. However, studies indicate that applied projects in engineering education tend to be limited to a single discipline. This article presents a new project typology which can be applied in engineering education. The typology is based on an action research study in a systemic PBL environment. The model presented has two dimensions: a) the complexity of teams, ranging from single team to networks of teams, and b) the complexity of interdisciplinarity, ranging from disciplinary projects to broad interdisciplinary projects. This results in the identification of six different project types. This typology can be used as a conceptual framework for interdisciplinary learning throughout engineering education. The project types embrace both single-team projects and larger projects consisting of multiple teams working together on complex problems

Challenges for engineering students working with authentic complex problems

Engineers are important participants in solving societal, environmental and technical problems. However, due to an increasing complexity in relation to these problems new interdisciplinary competences are needed in engineering. Instead of students working with monodisciplinary problems, a situation where students work with authentic complex problems in interdisciplinary teams together with a company may scaffold development of new competences. The question is: What are the challenges for students structuring the work on authentic interdisciplinary problems? This study explores a three-day event where 7 students from Aalborg University (AAU) from four different faculties and one student from University College North Denmark (UCN), (6th-10th semester), worked in two groups at a large Danish company, solving authentic complex problems. The event was structured as a Hackathon where the students for three days worked with problem identification, problem analysis and finalizing with a pitch competition presenting their findings. During the event the students had workshops to support the work and they had the opportunity to use employees from the company as facilitators. It was an extracurricular activity during the summer holiday season. The methodology used for data collection was qualitative both in terms of observations and participants’ reflection reports. The students were observed during the whole event. Findings from this part of a larger study indicated, that students experience inability to transfer and transform project competences from their previous disciplinary experiences to an interdisciplinary setting

Using a PBL perspective in continuing education for science and mathematics lower secondary teachers

For years, the need for inquiry- and problem-based learning (PBL) in primary and lower secondary education, within science and mathematics, has been addressed worldwide and requires support from a range of pedagogical sources. One important basis for such support is continuing teacher education. Thepresent research builds upon data froma nationwide qualitative investigation (HesselholtHenneHansen et al., 2019), conducted as part of a feasibility study aimed at initiating a new STEM (science, technology, engineering, mathematics) graduate teacher programme in Denmark, leading to a Master of Science (MSc)in STEM teaching. The investigation identified continuing education needs of science and mathematics teachers and student teachers. We looked into the results of the qualitative portion of the feasibility study and investigated whether and how problem-based learning was being emphasized as comprising desirablecontent areas for continuing teacher education. Data were collected from 35 group interviews with 66 respondents: teachers from public and private schools, and teacher students. The results showed that PBL stands out as a desirable focus area. Other student teachers expressed an interest in including didacticbased topics that are related to PBL, e.g. differentiated teaching, engineering design, technology, and information communication technology [ICT] within STEM education. Furthermore, respondents expressed their desire for collaboration with other subjects (e.g. Danish and social sciences) ininterdisciplinary teaching and, as well, the opportunity to immerse themselvesin academic topics such as education for sustainability, climate education, technology, and including specific experiences with applied science, mathematics and recent research. Without being able to make a quantitative statement, it must also be mentioned that some teachers expressed no need or desire for further education