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Now showing items 1-9 of 9
Assessing design activity in engineering education: a proposed synthesis of adaptive comparative judgement and the CDIO Framework.
(ASEE, 2018)
One of the leading frameworks in engineering education specifically associated with design based competencies is the CDIO framework. This has been incorporated internationally into many institutions offering engineering ...
Investigating the effect of engineering student's spatial ability and expertise on general complex problem solving
(Høgskolen i Oslo og Akershus, 2021-04-26)
Spatial ability is attributed to success in STEM disciplines and is outlined as a component of general cognitive ability through the Cattell-Horn-Carroll (CHC) model of human intelligence. Research in spatially orientated ...
The predictive capacity of spatial ability for knowledge retention in third level technology and engineering education.
(Technology Education Research Group, 2019-06)
It is well established that spatial ability correlates with STEM performance. THis has been shown through substantial longitudinal evidence e.g. (Wai, Lubinski, & Benbow, 2009). Specifically, it has been demonstrated as ...
Engineering education research methods to determine conceptions of engineers and of engineering.
(EERN, 2019-05)
Engineering education research has been categorised into the five research areas of ‘engineering epistemologies’, ‘engineering learning mechanisms’, ‘engineering learning systems’, engineering diversity and inclusiveness’, ...
A comparison of Swedish and Irish secondary students' conceptions of engineers and engineering using the draw-an-engineer test
(ASEE, 2019-06)
Women are significantly underrepresented in engineering and engineering related disciplines. One area where this is clearly illustrated is in the percentage of females enrolled in higher education engineering courses. The ...
A preliminary model of problem categorisation to explore the cognitive abilities required for problem solving in engineering education.
(TERG, 2018-06)
The provision of engineering education as a means of enabling students to develop contemporary
transversal competencies such as problem solving, critical thinking, adaptive reasoning and
communication, places a responsibility ...
MIND strengths: the unique cognitive architecture of engineering and technology students.
(IMC, 2016)
Engineering and technology education is uniquely positioned within formal education systems to facilitate the development of a broad range of cognitive competencies such as designerly thinking, spatial reasoning and ...
Investigating the relationships between spatial ability, interest, and task experience on knowledge retention in engineering education.
(TERG, 2018-06)
Spatial ability has been established as having a significant effect on performance and subsequently on
retention in engineering education. However, the cause for this phenomenon is not yet fully understood.
Based on ...
Developing a spatial ability framework to support spatial ability research in engineering education.
(REES, 2015-08)
The association between high levels of spatial cognition and success
in a number of engineering and technological fields is widely acknowledged
within the pertinent literature. There is a now a need for further investigation ...