Engineering Education: Innovation Through Integration

Bordogna, Joseph; Fromm, Eli; Ernst, Edward W.

doi:10.1002/j.2168-9830.1993.tb00065.x

Cited by 215 publications

(131 citation statements)

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“…This means that lecturers should adopt the use of application based test such that the real world capability is tested. Furthermore, [40] emphasised that the real world must be taught by teaching majorly the basics, problem-solving skills, engineering ethics, and the connection between technology and the society while reducing the number of years spent in the class room. Teaching what is necessary in the real world requires more equipment and infrastructures.…”

Section: 3mentioning

confidence: 99%

Embracing the future of engineering education in Nigeria: teaching and learning challenges

2018

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There has been a wide advocacy around the adoption of better teaching methods for Engineering Education in Nigeria, more especially with the advent of information and telecommunication technologies. However, compared with what was applicable, about 40 to 50 years ago, little has changed in the country in relation to classroom teaching and learning, use of teaching aids, and laboratory works among others. The general concept of the Nigerian education system and the role of engineering in the educational system are examined in this paper. It also examines the present Nigerian engineering teaching style and outputs, some of the challenges being faced by engineering education in Nigeria especially in relation to teaching and learning highlighted. The work proposes some changes that would make engineering education better in Nigeria while showing that sustainable engineering education development for the future engineering education lies in a modified teaching-learning approach guided by real-world problems.

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Section: 3mentioning

confidence: 99%

Embracing the future of engineering education in Nigeria: teaching and learning challenges

2018

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“…Among the most common weaknesses noted was a lack of capacity to synthesize, to create, or to design, as well as poor communication skills. Moreover, Bordogna, Fromm, and Ernst (1993) noted the fragmentation of scientific and technological knowledge, and suggested that undergraduate engineering education should be designed towards the integration of both.…”

Section: Context and Curricular Characteristicsmentioning

confidence: 99%

Problem-based and Project-based Learning in Engineering and Medicine: Determinants of Students’ Engagement and Persistance

Bédard¹,

Lison²,

Dalle³

et al. 2012

Interdisciplinary Journal of Problem-Based Learning

104

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This paper presents results of a study conducted with undergraduate students involved in either problem-or project-based curricula (Medicine and Engineering, respectively) at the Université de Sherbrooke, Canada. The objective of the present research was to measure the impact of these innovative curricula on students' engagement and persistence in higher education. Our research question was: What determinants better predict students' engagement and persistence in innovative curricula such as PBL? Nine variables were examined as potential predictors of both factors (engagement and persistence). Results showed a variation in variables predicting engagement and persistence, with the most significant predictor being stress related.

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“…As Bordogna, Fromm, and Ernst argue, "the concept of integration, or synthesis … is the hallmark philosophy of the engineering profession" (p. 3). 22 More recent publications reiterate these themes. Duderstadt, for instance, describes the ability to integrate knowledge "across an increasingly broad intellectual span" (p. 45) 23 as an essential competency for engineers, while Sheppard et al portray engineering as "integrative to its core", requiring "the purposeful and thoughtful integration of knowledge and process to create a solution to some particular problem" (p. 174).…”

Section: Engineering Design: Technical and Non-technical Considerationsmentioning

confidence: 88%

The Energy Conversion Playground (ECP) Design Task: Assessing how Students Think About Technical and Non-Technical Considerations in Sustainable Community Development

Mazzurco¹,

Huff

Jesiek³

2014

IJSLE

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-Students in global service-learning and similar programs frequently encounter substantial social, cultural, political, and ethical differences when working with project partners in different countries and regions. Neglecting such differences can lead to project failures and/or disempowered communities. In response to these challenges, educational resources have been developed to teach students to think about how the people, social structures, and other contextual factors associated with projects can affect, and be affected by, students' designs. Yet, there remains a scarcity of valid and reliable instruments to evaluate the effectiveness of such interventions. The purpose of this study is create a theoretically and empirically grounded instrument, the Energy Conversion Playground (ECP) design task, that is able to provide a meaningful and robust assessment of an individual's ability to identify salient technical and non-technical considerations when approaching an engineering design task situated in a developing country context. We present the scenario and an accompanying rubric that was first developed inductively from student responses to the scenario (specifically 449 discrete items from 93 ECP design tasks submitted by students who attended a Global Engineering Design Symposium). Further development of the rubric involved deductive grounding in relevant literature. To demonstrate the sensitivity of ECP design task to changes in students' thinking, we also performed comparative analysis of responses from a subset of the students (n=37) who completed the same instrument both before and after participating in the GEDS.

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Engineering Education: Innovation Through Integration

Cited by 215 publications

References 1 publication

Embracing the future of engineering education in Nigeria: teaching and learning challenges

Embracing the future of engineering education in Nigeria: teaching and learning challenges

Problem-based and Project-based Learning in Engineering and Medicine: Determinants of Students’ Engagement and Persistance

The Energy Conversion Playground (ECP) Design Task: Assessing how Students Think About Technical and Non-Technical Considerations in Sustainable Community Development

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