Teaching and learning methodologies in engineering education in Nigerian universities

The course “Interdisciplinary Aspects in Science and Engineering Education” is a unique course designed to expose students of science and engineering education to the characteristics of interdisciplinary teaching and learning. The theoretical part of the course deals with the nature of science and engineering and the interaction between the two, various hierarchies describing the level of integration between disciplines, and possible strategies for developing interdisciplinary lessons. In the practical section, the participants develop, in heterogeneous teams of students from different academic backgrounds, an interdisciplinary lesson integrating science and engineering, and teach it to their peers. Using qualitative tools, the research described in this paper characterized the attitudes of 112 students towards developing an interdisciplinary lesson as part of a team. The findings indicate that the students identified both the difficulties involved in developing an interdisciplinary lesson as part of a team and the advantages inherent to teamwork. It was further found that the weight of the attitude component that recognized the contribution of teamwork to the development of interdisciplinary lessons was considerably higher than the weight of the component indicating the difficulties that involved teamwork.

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A Case Study on Teaching and Learning Innovations Applied to Engineering Education

Journal of Engineering Education Transformations ◽

10.16920/jeet/2016/v0i0/85678 ◽

2016 ◽

Vol 0 (0) ◽

Author(s):

S. A. Soundattikar ◽

V. R. Naik

Keyword(s):

Engineering Education ◽

Teaching And Learning

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INSIGHTS INTO LEARNING STYLES PREFERENCE OF ENGINEERING UNDERGRADUATES: IMPLICATIONS FOR TEACHING AND LEARNING

Journal of Nusantara Studies (JONUS) ◽

10.24200/jonus.vol7iss1pp390-409 ◽

2022 ◽

Vol 7 (1) ◽

pp. 390-409

Author(s):

Nadia Nur Afiqah Ismail ◽

Tina Abdullah ◽

Abdul Halim Abdul Raof

Keyword(s):

Learning Styles ◽

Language Learning ◽

Engineering Education ◽

Learning Style ◽

Teaching And Learning ◽

English Language ◽

Learning Style Preferences ◽

Style Preferences ◽

Learning Style Preference ◽

Engineering Undergraduates

Background and Purpose: Education at higher institutions prepares graduates for the real world. To develop and maintain quality, the focus must not only be on what institutions can offer but also on the learning needs and styles of learners. Despite many studies on engineering learners’ learning styles, limited research has been conducted to compare the learning styles of Engineering and Engineering Education learners. This study was conducted to ascertain the learning style preferences of first-year undergraduates from both groups in a science and technology-driven university in Malaysia. Methodology: This descriptive study consisted of 40 Engineering and 40 Engineering Education learners who attended an English language course at the university. Perceptual Learning Style Preference Questionnaire was adopted as the survey instrument. The data were analysed using self-scoring sheet and Statistical Package for the Social Sciences. Findings: While both groups chose Kinaesthetic as a major learning style preference, the Engineering Education learners also chose Group, Tactile, and Auditory learning styles as their other major preferences. Both groups chose Visual and Individual as their minor preferences. Contributions: The findings extend research demonstrating the significant role of specific disciplines in Engineering to determine the learning style preferences of learners. The findings also provide useful insights that suggest implications for practice and policy. Keywords: Engineering, engineering education, English language, learning styles, teaching and learning. Cite as: Ismail, N. N. A., Abdullah, T., & Abdul Raof, A. H. (2022). Insights into learning styles preference of engineering undergraduates: Implications for teaching and learning. Journal of Nusantara Studies, 7(1) 390-409. http://dx.doi.org/10.24200/jonus.vol7iss1pp390-409

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A Utilização de Softwares no Ensino e Aprendizagem dos Cursos de Engenharia

Revista de Ensino Educação e Ciências Humanas ◽

10.17921/2447-8733.2021v22n2p146-151 ◽

2021 ◽

Vol 22 (2) ◽

pp. 146-151

Author(s):

Carlos Alberto Gonçalves da Silva Maistro Machado ◽

Angelica Da Fontoura Garcia Silva ◽

Diego Fogaça Carvalho

Keyword(s):

Engineering Education ◽

Teaching And Learning ◽

Qualitative Method ◽

Quantitative Methods ◽

Language Teaching ◽

Academic Research ◽

Learning Processes ◽

The Future ◽

Almost All ◽

Computational Technology

ResumoO estudo aqui exposto é parte de uma pesquisa de mestrado em andamento desenvolvida no Programa de Pós-Graduação Stricto Sensu em Metodologias para o Ensino de Linguagens e suas Tecnologias. Trata-se de uma investigação que tem o propósito de retratar a pesquisa acadêmica encontrada no repositório de publicações da Associação Brasileira de Ensino em Engenharia – ABENGE –. Para a realização desta pesquisa bibliográfica buscou-se no repositório. os artigos publicados em um período de 12 anos – a partir de 2006 até 2018. Selecionou-se publicações que tiveram como foco a utilização de softwares para desenvolver processos de ensino e de aprendizagem de disciplinas de cursos de engenharia. Dos 397 artigos encontrados, 25 foram selecionados como instrumento de análise para esta pesquisa, dos quais, 14 deles foram publicados em 2017 e 2018. Analisando as tais publicações, pôde concluir que o método qualitativo se sobressaiu acima do quantitativo e quali-quanti, e ainda 44% dos artigos se basearam em questionários, avaliações ou entrevistas, seguidos de 40% de pesquisas bibliográficas. No tocante aos resultados foi possível identificar que quase a totalidade dos estudos concluiu que a utilização de diferentes metodologias, dentre elas softwares para o ensino, é fundamental para a inserção do futuro engenheiro ao mercado atual. Palavras-chave: Ensino de Engenharia. Processos de Ensino e de Aprendizagem. Tecnologia Computacional. AbstractThe study here presented is part of an ongoing master's research developed at the Stricto Sensu Postgraduate Program in Methodologies for Language Teaching and its Technologies. It is an investigation that has the purpose of portraying the academic research found in the repository of publications of the Brazilian Association of Engineering Teaching - ABENGE. In order to carry out this bibliographical research, the repository was searched for articles published over a period of 12 years - from 2006 to 2018. Publications that focused on the use of software to develop teaching and learning processes for engineering courses were selected. Of the 397 articles found, 25 were selected as analysis tools for this research, 14 of which were published in 2017 and 2018. Analyzing these publications, it was possible to conclude that the qualitative method stood out above the quantitative and quali-quantitative methods, and 44% of the articles were based on questionnaires, evaluations or interviews, followed by 40% of bibliographical research. Regarding the results, it was possible to identify that almost all the studies concluded that the use of different methodologies, including software for teaching, is fundamental for the insertion of the future engineer in the current market. Keyword: Engineering Education. Teaching and Learning Processes. Computational Technology.

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A Foucauldian Discourse Analysis of an Engineering Programme

10.26686/wgtn.17135993 ◽

2021 ◽

Author(s):

◽

Craig Watterson

Keyword(s):

Discourse Analysis ◽

New Zealand ◽

Learning Environment ◽

Engineering Education ◽

Teaching And Learning ◽

Course Design ◽

Teaching Staff ◽

Extensive Literature ◽

Complex Situation ◽

Teaching And Learning Environment

<p>The extensive literature relating to student barriers within the Science, Technology, Engineering and Mathematics (STEM) fields and, in particular, engineering education illustrates that STEM education has a widespread problem in retaining students. A plethora of studies have concentrated on placing the student at the centre of the problem – for example by focusing on student academic ability, work habits and social background. By analysing staff interviews, and investigating pertinent factors from the surrounding institutional, cultural and social environment, I shift the focus away from the phenomenological experience of individuals to examine the way power relations affect the teaching and learning environment. Foucauldian Discourse Analysis (FDA) offers a theoretical and methodological basis for critically exploring networks of power, through the investigation of discourse and can provide insights into the complex situation in the School of Engineering and Computer Science (ECS). I use FDA to ask: how is power experienced and manifested by lecturers in the Bachelor of Engineering with Honours (BE) first-year teaching and learning environment at Victoria University of Wellington (VUW), New Zealand. I do this by analysing transcripts of interviews with teaching staff, as well as ECS, University, and Government documentation. By adopting an FDA approach to lecturers’ experiences of power, situated in the New Zealand neoliberal educational context, I aim to identify issues that impact the teaching and learning environment. These include academic practices relating to Government and University pressure to increase engineering student recruitment and retention numbers, an academically diverse incoming student cohort, course design, teaching and research. From a Foucauldian perspective, the New Zealand Government, the University, its lecturers, and students are all part of an educational setting comprising a complex network of power relationships active in the operation of the teaching and learning environment. By placing lecturers at the epicentre of the situation and by understanding how lecturers both experience and exercise power in the teaching-learning environment, the issue of student retention may be re-framed. This study offers a unique perspective from which we can assess these problematic experiences at the source, whether that be at government, institution, department, teacher or learner level. As such, by exploring the operation of power, this thesis explores an important aspect of the retention problem which has never been fully investigated in NZ engineering education.</p>

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Application of Information and Communication Technology to Create E-Learning Environments for Mathematics Knowledge Learning to Prepare for Engineering Education

Cases on Research-Based Teaching Methods in Science Education - Advances in Educational Technologies and Instructional Design ◽

10.4018/978-1-4666-6375-6.ch015 ◽

2014 ◽

pp. 345-373

Author(s):

Tianxing Cai

Keyword(s):

Engineering Education ◽

Learning Environments ◽

Teaching And Learning ◽

Engineering Application ◽

Mathematical Practice ◽

Mathematical Methods ◽

Mathematics Knowledge ◽

Mathematical Problems ◽

Information And Communication ◽

E Learning

The standards for mathematical practice describe varieties of expertise that mathematics educators should develop in their students, including NCTM process standards (problem solving, reasoning and proof, communication, representation, and connections), NRC's report “Adding It Up” (adaptive reasoning, strategic competence, conceptual understanding, procedural fluency, and productive disposition), common core state standards in mathematics (ICT application) to support mathematics teaching and learning. There is a need to provide effective ways that technology can be integrated into mathematics classrooms. Mathematical methods and techniques are typically used in engineering and industrial fields. It can also become an interdisciplinary subject motivated by engineers' needs. Mathematical problems in engineering result in rigorous engineering application carried out by mathematical tools. Therefore, a solid understanding and command of mathematical knowledge is very necessary. This chapter presents the introduction of currently available ICTs and their application of to create e-learning environments to prepare for the students' future engineering education.

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Promoting Cognitive Skill among Engineering Undergraduates with Technological Software

Promoting Global Literacy Skills through Technology-Infused Teaching and Learning - Advances in Educational Technologies and Instructional Design ◽

10.4018/978-1-4666-6347-3.ch015 ◽

2015 ◽

pp. 254-262

Author(s):

Nur Maisarah Binti Shahril Khuzairi ◽

Manjit Singh Sidhu

Keyword(s):

Engineering Education ◽

Learning Environments ◽

Learning Process ◽

Cognitive Skills ◽

Teaching And Learning ◽

Cognitive Skill ◽

Higher Order ◽

Constant Change ◽

Evolution Of Technology ◽

Engineering Undergraduates

This chapter reviews the infusion of technology tools such as the integration of computers into programs like simulation to promote higher cognitive skills among engineering undergraduates. With the constant change of technology and education, it is necessary to refine the current teaching and learning process to not only promote understanding but also to create room for engineering undergraduates to process the information with higher-order cognitive skills. The authors examine the evolution of engineering education against the backdrop of the problems faced in the learning environments and the technological trends in engineering curriculum. To this end, the authors propose strategies to promote higher-order cognitive skills among engineering undergraduates based on the evolution of technology in engineering as well as the challenges faced in the implementation of such tools in teaching and learning.

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Designing of E-learning for Engineering Education in Developing Countries

Web-Based Engineering Education ◽

10.4018/978-1-61520-659-9.ch001 ◽

2010 ◽

pp. 1-19

Author(s):

B. Noroozi ◽

M. Valizadeh ◽

G. A. Sorial

Keyword(s):

Developing Countries ◽

Engineering Education ◽

Information And Communication Technologies ◽

Teaching And Learning ◽

Success Factors ◽

Communication Technologies ◽

Distributed Structure ◽

Information And Communication ◽

E Learning ◽

Key Issues

Traditional education for engineers has shifted towards new methods of teaching and learning through the proliferation of Information and Communication Technologies (ICT). The continuous advances in technology enable the realization of a more distributed structure of knowledge transfer. This becomes critically important for developing countries that lack the resources and infrastructure for implementing engineering education practices. The two main themes of technology in designing e-Learning for engineering education in developing countries focus either on aspects of technological support for traditional methods and localized processes, or on the investigation of how such technologies may assist distance learning. Commonly such efforts are threefold, relating to content delivery, assessment and provision of feedback. This chapter is based on the authors ‘10 years’ experience in e-Learning, and reviews themost important key issues and success factors regarding the design of e-Learning for engineering education in developing countries.

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