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ABSTRACTThis paper presents a design-based research project undertaken to test and implement an interest-based engineering challenges framework for pre-college students. This work is motivated by the need for innovative engineering education practices in pre-college settings, and making engineering more inclusive for people from diverse backgrounds. The design-based research methodology can be challenging to implement as it comprises of multiple, cyclical research activities that provide challenges in documenting and communicating the larger study’s progress. This paper presents findings from this continuously evolving study, and also the design and implementation of this design-based research at roughly the halfway point for a four-year study. Each of the consequent versions scaffold to answer the broader research questions of the study pertaining to: engineering appealing to students’ personal interests, empowering underrepresented groups to find meaningful connections to engineering, leading more authentic engagement in engineering and design practices, and improving students’ attitudes and perception of engineering. 相似文献
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Investigating invisible writing practices in the engineering curriculum using practice architectures
Rosalie Goldsmith Keith Willey David Boud 《European Journal of Engineering Education》2019,44(1-2):71-84
ABSTRACTWriting practices are seen to be essential for professional engineers, yet many engineering students and academics struggle with written communication, despite years of interventions to improve student writing. Much has been written about the importance of getting engineering students to write, but there has been a little investigation of engineering academics’ perceptions of writing practices in the curriculum, and the extent to which these practices are visible to their students and to the academics. This paper draws on research from an ongoing study into the invisibility of writing practices in the engineering curriculum using a practice architectures lens. The paper uses examples from the sites of practice of two participants in the study to argue that prevailing practices in engineering education constrain more than enable the development and practice of writing in the engineering curriculum. 相似文献
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Sarah Bell Andrew Chilvers Liz Jones Nicole Badstuber 《European Journal of Engineering Education》2019,44(3):429-444
ABSTRACTThis study explored if it is possible for liberal arts students to develop engineering professional competencies without detailed engagement with the engineering sciences. Students on a Bachelor of Arts and Sciences programme were compared with their undergraduate peers in Civil Engineering. A new method for evaluating such competencies was developed. Two one-hour individual problem-solving exercises were devised to assess capabilities against 14 criteria, based on the Institution of Civil Engineers’ Competency framework for professional development (2011 The BASc cohort’s scores for each criterion improved notably from the start of term to the end. This cohort rated their capabilities more highly at the end of term and was more satisfied with the answers they gave. Engineering students showed a slight decline in performance against the criteria. Self-evaluation in this group revealed a smaller increase in perceived capability but increased dissatisfaction. Both cohorts felt more anxious about the assignment at the end of the term. PBL environments can improve student competence in attributes associated with professional engineering. The scope of the study is constrained by the small cohort but the findings and evaluation method provide the basis for further development, including detailed statistical evaluation and validation of the evaluation instrument. 相似文献
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Laura Fogg-Rogers Fay Lewis Juliet Edmonds 《European Journal of Engineering Education》2017,42(1):75-90
ABSTRACTUndergraduate education incorporating active learning and vicarious experience through education outreach presents a critical opportunity to influence future engineering teaching and practice capabilities. Engineering education outreach activities have been shown to have multiple benefits; increasing interest and engagement with science and engineering for school children, providing teachers with expert contributions to engineering subject knowledge, and developing professional generic skills for engineers such as communication and teamwork. This pilot intervention paired 10 pre-service teachers and 11 student engineers to enact engineering outreach in primary schools, reaching 269 children. A longitudinal mixed methods design was employed to measure change in attitudes and Education Outreach Self-Efficacy in student engineers; alongside attitudes, Teaching Engineering Self-Efficacy and Engineering Subject Knowledge Confidence in pre-service teachers. Highly significant improvements were noted in the pre-service teachers’ confidence and self-efficacy, while both the teachers and engineers qualitatively described benefits arising from the paired peer mentor model. 相似文献
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Jin Woo Lee Anastasia Ostrowski Aileen Huang-Saad Colleen M. Seifert 《European Journal of Engineering Education》2019,44(3):360-378
ABSTRACTWith increasing demand for improved medical equipment and healthcare, next-generation biomedical engineers need strong design skills. Equipping biomedical engineering students with tools for idea generation and development can increase student design success. Design Heuristics are an ideation tool developed through empirical studies of product designs. While identified in the mechanical engineering space, Design Heuristics may be applicable in biomedical engineering design. In our study, we implemented a Design Heuristics session during upper-level undergraduate and first-year graduate biomedical engineering design courses. We examined the applicability of Design Heuristics within individual and team concept generation contexts. The findings demonstrated that biomedical engineering students were able to use Design Heuristics to generate multiple concepts, and that initial concepts produced using Design Heuristics were carried over into final team design. The results support the applicability of Design Heuristics to student idea generation in biomedical engineering design. 相似文献
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S.M. Gómez Puente M. van Eijck W. Jochems 《Research in Science & Technological Education》2013,31(3):288-307
Background: In research on design-based learning (DBL), inadequate attention is paid to the role the teacher plays in supervising students in gathering and applying knowledge to design artifacts, systems, and innovative solutions in higher education.Purpose: In this study, we examine whether teacher actions we previously identified in the DBL literature as important in facilitating learning processes and student supervision are present in current DBL engineering practices.Sample: The sample (N=16) consisted of teachers and supervisors in two engineering study programs at a university of technology: mechanical and electrical engineering. We selected randomly teachers from freshman and second-year bachelor DBL projects responsible for student supervision and assessment.Design and method: Interviews with teachers, and interviews and observations of supervisors were used to examine how supervision and facilitation actions are applied according to the DBL framework.Results: Major findings indicate that formulating questions is the most common practice seen in facilitating learning in open-ended engineering design environments. Furthermore, other DBL actions we expected to see based upon the literature were seldom observed in the coaching practices within these two programs.Conclusions: Professionalization of teachers in supervising students need to include methods to scaffold learning by supporting students in reflecting and in providing formative feedback. 相似文献
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Elliot P. Douglas Mirka Koro-Ljungberg Maura Borrego 《European Journal of Engineering Education》2010,35(3):247-257
The purpose of this paper is to explore some challenges and promises when the epistemological diversity embedded in qualitative research traditions is introduced to research communities with one dominant research paradigm, such as engineering education. Literature is used from other fields and empirical data are used from engineering education, including the practices of the European Journal of Engineering Education and the Journal of Engineering Education, with the expectation that the ideas that are presented are relevant to a broad range of education disciplines. A number of challenges are identified as the epistemological diversity of qualitative research is introduced to the primarily positivist field of engineering education. Ultimately, embracing epistemological diversity holds the promise of researchers being able to ask: ‘What questions and answers become possible from these newly created positions and what can be learned from these alternative approaches?’. 相似文献
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Farshid Marbouti John Mendoza-Garcia Heidi A. Diefes-Dux Monica E. Cardella 《European Journal of Engineering Education》2019,44(1-2):179-195
ABSTRACTFeedback is an important part of design education. To better understand how feedback is provided to students on their engineering design work, we characterised and compared first-year engineering students’, undergraduate teaching assistants’, and educators’ written feedback on sample student design work. We created a coding scheme including two domains: Substance and Focus of feedback. Educators made more and longer comments than undergraduate teaching assistants, and undergraduate teaching assistants made more and longer comments than first-year students. The first-year students focused on giving specific directions in their feedback while educators and undergraduate teaching assistants asked thought-provoking questions. Students tended to make more comments about the ways that their peers had communicated their design work while educators and undergraduate teaching assistants made more comments about the design ideas presented in the sample work. This study offers implications for practice for supporting educators, undergraduate teaching assistants, and first-year engineering students to be able to provide feedback on design work. 相似文献
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Christopher M. Hinkle 《European Journal of Engineering Education》2019,44(6):906-922
ABSTRACTClubs constitute a prominant co-curricular activity to prepare students for effective professional careers, yet the role of engineering clubs in students' professional formation is poorly understood. This qualitative, comparative case study investigated three student engineering clubs at a large American public university. The clubs included a domestic chemical reaction car competition; a formula racing club that partners with a German team and competes both domestically and internationally; and a humanitarian engineering club centred on service learning projects in developing countries. Data collection included semi-structured interviews with participants (N?=?19) and observations of club work sessions (N?=?27). Using Cultural Historical Activity Theory (CHAT) as the analytical framework, the transcribed interviews were coded to characterise the activity in each club. The findings demonstrate that a confluence of elements, especially decision-making rules and division of labour, leads to a fundamentally distinct activity system in each club. Consequently, each club differs in the ways it influences students’ professional formation. More generally, this study illustrates the potential of CHAT for analysis of co-curricular activity that can lead to alternative approaches to activity design. 相似文献
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Lie Richard Aranda Maurina L. Guzey S. Selcen Moore Tamara J. 《Research in Science Education》2021,51(3):663-683
Recent reforms in science education have supported the inclusion of engineering and their practices in K-12 curricula. To this end, many classrooms have incorporated engineering units that include design challenges. Design is an integral part of engineering and can help students think in creative and interdisciplinary ways. In this study, we examined students’ conceptions of design during and after participation in a design-based science curriculum unit. Our study was guided by the following research question: What are students’ views of design after participation in an engineering design-based science curriculum unit and how are these views reflected in their enactment throughout the unit? Using a qualitative approach, we examined students’ conversations throughout the enactment of the curriculum and interviews conducted after the completion of the unit. We found that students had complex and diverse views of design, and these views were reflected in their group discussions throughout the curriculum and design challenge. Students most frequently expressed design as learning and as a process of integration into a coherent whole. These aspects of design were also frequently observed in students’ conversations during the unit. Interestingly, we found evidence of students demonstrating several aspects of design throughout the curriculum that were not explicitly expressed during the student interviews. Taken together, these findings support the complex nature of design as seen at the middle school level.
相似文献11.
Incorporating engineering instruction into the elementary curriculum is not without challenges. Traditionally, researchers investigated using engineering design to promote students learning science concepts. More recently, researchers have conducted qualitative investigations to measure students' learning of engineering concepts after engaging in engineering design. In this study, we extended work on elementary engineering instruction by implementing an integrated engineering and writing unit with 58 third-grade students. Using stratified random assignment based on pre-intervention engineering vocabulary assessment scores, we assigned students to treatment (n = 28) or comparison (n = 30). During a 10-day unit, all students participated in design challenges, emulated the practices of actual engineers, and used writing to support and document their learning, as they designed and authored their own five-page pop-up books. Students in the treatment condition participated in additional writing during 8 of the 10 unit lessons. During this time, they responded to journal prompts related to lesson objectives. At the same time, students in the comparison condition participated in small-group discussions during which they discussed journal prompts orally. We found that all students made statistically significant gains from pre- to posttest on an engineering vocabulary assessment; total words written, number of different engineering concepts used, and depth of understanding of engineering concepts in a written essay response; and number of different engineering concepts used in an oral interview response, regardless of their incoming writing skills and regardless of whether they participated in additional writing or small-group discussion of lesson objectives. This study is the first to quantitatively document the effectiveness of a combined elementary engineering and writing intervention for promoting students' learning of engineering concepts in multiple ways (rote recall, written representation, and oral representation). We argue that literacy, particularly writing, provides an effective and feasible method for incorporating engineering instruction into the elementary curriculum. 相似文献
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ABSTRACTThe growing prevalence and severity of mental health difficulties across university student populations is a critical issue for universities and their wider communities. Yet little is known about student perspectives on the stressors in university environments and the steps that universities could take to better support student mental wellbeing. This article reports on a study that collected and analyzed 2776 student responses to the question: What can be done to improve student wellbeing? Students made diverse recommendations that fell into seven categories: Academic teachers and teaching practices; student services and support; environment, culture and communication; course design; program administration; assessment; and student society activities. The findings from our study offer important insight to university educators and administrators about the role they can play in better supporting student wellbeing and preventing the high rates of psychological distress. We argue that the process of seeking and acting on students’ suggestions fosters students’ sense of inclusion and empowerment, and this is critical given that the goal of improving student mental wellbeing can only be achieved through an effective partnership between students and institutional actors. 相似文献
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ABSTRACTMany engineering education research faculty have put much effort into providing empirical evidence demonstrating the success of student-centred teaching strategies in the hopes that this evidence will result in widespread changes of engineering teaching practices. Unfortunately, these student-centred strategies have not been widely adopted as many engineering faculty still rely heavily on traditional lectures. In this study, we investigate three engineering faculty who have successfully made the transition to student-centred teaching strategies to uncover the complexities and nuances through their stories. This study uses Dewey’s Theory of Experience as a theoretical framework and Joseph Campbell’s Hero’s Journey as a structural way to construct and analyse narratives of participant’s journeys. These engineering faculty narratives shed light on the stages involved in the process of changing teaching practices and how individuals interact with the environment to evolve over time. 相似文献
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Previous research suggests that in classes that take an integrated approach to science, technology, engineering, and math (STEM) education, students tend to engage in fulfilling goals of their engineering design challenges, but only inconsistently engage with the related math and science content. The present research examines these inconsistences by focusing on student engagement, or effort, towards math and science concepts while working on an engineering challenge, through the lens of expectancy-value theory. Specifically, we examine how students’ perceptions of the value of math and science and expectancy for success with the math and science relate to the efforts they put towards using math and science while working on engineering challenges. Our results suggest that subjective task value significantly predicts efforts towards both math and science, whereas neither expectancy, nor the interaction between expectancy and value predicted effort. We argue that integrated learning environments need to help students understand how the domains of math, science, and engineering support their work in fulfilling the engineering project design goals. In other words, we argue that we, as educators, must help students to recognise the value of each of the domains addressed within STEM integrated learning environments. This paper discusses strategies for accomplishing this goal. 相似文献
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Do-Yong Park Mi-Hwa Park Alan B. Bates 《International Journal of Science and Mathematics Education》2018,16(2):275-294
This case study explores young children’s understanding and application of the concept of volume through the practices of engineering design in a STEM activity. STEM stands for science, technology, engineering, and mathematics. However, engineering stands out as a challenging area to implement. In addition, most early engineering education research centers on curriculum and instruction rather than students’ understanding and application of models and content knowledge to a design project (Johri and Olds, Journal of Engineering Education, 100(1):151–185, 2011). For this study, we created a play-based STEM activity which helps students understand and apply the concept of volume in creating clay boats through the practices of engineering design. Three students voluntarily participated in this study. Data sources included interviews, photocopies of boats, and observation field notes which were analyzed using a comprehensive cross-case analysis. Findings indicate that the common pattern is rather intuitive when students define engineering problems using different criteria. Also, students’ solutions to engineering problems are associated with their experiential ideas of reality. How students express their understanding of volume is correlated to the way of their structuring volume. Lastly, students understand the concept of volume gradually while going through the practices of engineering design. Implications are discussed in terms of how engineering education contributes to students’ understanding of volume. 相似文献
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Petra Kranzfelder Alexander T. Lo Marin P. Melloy Lindsey E. Walker 《International Journal of Science Education》2013,35(14):1944-1961
ABSTRACTTheoretically, organisational culture, instructor training, and learning space design influence how faculty teach STEM courses. Previous studies have used classroom observation protocols to characterise the range of teaching practices in mostly teacher-centered, traditional STEM classrooms. In this study, we examined the classroom behaviour of 13 STEM faculty teaching biology courses in a reformed undergraduate STEM learning environment. Our findings indicate that instructors teaching in this reformed environment guided student learning (58.4?±?1.9%) almost three times more than they presented information (20.0?±?2.2%). Students worked individually or in groups and talked to the whole class (57.1?±?1.8%) 1.5 times more than they received information (35.5?±?1.9%). We found significant positive correlation between ‘instructor presenting’ and ‘students receiving’ information (r?=?0.743, p?=?1.4?×?10?4) and ‘instructor guiding’ and ‘student working and talking’ in class (r?=?0.605, p?=?7.2?×?10?5), suggesting that instructors can change their own classroom behaviours and expect concurrent change in their students’ behaviours. Finally, sequencing teaching practices in high active-engagement classrooms showed instructors move and guide student group work and lead whole class discussions before lecturing to students, which could lead to deeper learning of conceptual knowledge. We discuss insights from these findings that have implications for acculturating evidence-based teaching practices in STEM departments. 相似文献
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ABSTRACTHere, we present a module to introduce student peer review of laboratory reports to engineering students. Our findings show that students were positive and felt that they had learnt quite a lot from this experience. The most important part of the module was the classification scheme. The scheme was constructed to mimic the way an expert would argue when making a fair judgement of a laboratory report. Hence, our results may suggest that the success of the module design comes from actively engaging students in work that is more related to ‘arguing like an expert’ than to only supply feedback to peers, which in such a case would implicate a somewhat new direction for feedback research. For practitioners, our study suggests that important issues to consider in the design are (i) a clear and understandable evaluation framework, (ii) anonymity in the peer-review process and (iii) a small external motivation. 相似文献