A contemporary course on the introduction to computational fluid dynamics

Miller, Steven A.

doi:10.1177/0306419019838880

Cited by 2 publications

(1 citation statement)

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“…Developing learning experiences that leverage continually evolving tools and platforms in a way that is informed by the research and scholarship on best practices and evidence-based recommendations allow educators to more effectively support students' successful achievement of learning goals and outcomes. Over the years in various ways computational methods and resources have been used to support teaching and learning in engineering courses [1,2] including introductory courses in fluid mechanics [3,4]. Furthermore, the significant migration of the students' learning experiences to virtual environments, which has been triggered under the mandatory responses to the onset of COVID-19 pandemic, has renewed concerns about students' success and motivation in engineering education [5].…”

Section: Introductionmentioning

confidence: 99%

How To Think About Fluids In and Out of Classrooms: Developing Interactive Strategies for Learning Fluid Mechanics Online

Fatehiboroujeni,

Ford,

Ritz

et al.

2021 ASEE Virtual Annual Conference Content Access Proceedings

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In this paper we report on the development of strategies used in an introductory fluid mechanics course that transitioned from a fully in-person mode of delivery to a hybrid setting. We describe two sets of instructional changes we used to support students' learning in the hybrid context: first, Matlab live script documents and second, "scavenger hunt" missions of finding, demonstrating, or building fluid mechanical systems in everyday life. We employ two different instruments to track students' experiences in this course. First, we compare students' performance in a fluid mechanics concept inventory assessment that they take at the end of each semester. In addition, we also adopt a set of items from the Motivated Strategies for Learning Questionnaire (MSLQ) to measure the impacts of these changes on students' motivations and attitudes. We reflect on the implications of this transition process and provide an outline of the future developments of this work.

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Section: Introductionmentioning

confidence: 99%

How To Think About Fluids In and Out of Classrooms: Developing Interactive Strategies for Learning Fluid Mechanics Online

Fatehiboroujeni,

Ford,

Ritz

et al.

2021 ASEE Virtual Annual Conference Content Access Proceedings

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A learning-centred computational fluid dynamics course for undergraduate engineering students

Li,

Cheung

2024

International Journal of Mechanical Engineering Education

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The great demands for computational fluid dynamics (CFD) practitioners in industry have motivated universities to integrate CFD courses into undergraduate curricula. This article introduces a learning-centred CFD course that aims to train critical users of commercial CFD codes. The main features of the course include a project-based approach to learning and assessment-guided learning activities, both scaffolded by technologies. The implementation of the course is informed by contemporary pedagogical theories that encourage students to have the ownership of their own learning and constructively build their knowledge in an inclusive and supportive learning environment. The students upon completing the course have developed a conceptual understanding of the CFD principles and the importance of performing CFD simulations in a critical way, making them ready for more advanced CFD learning and practices. Course evaluation based on feedback from various sources demonstrates that the learning-centred approach is the key to the success of the course.

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A contemporary course on the introduction to computational fluid dynamics

Cited by 2 publications

References 36 publications

How To Think About Fluids In and Out of Classrooms: Developing Interactive Strategies for Learning Fluid Mechanics Online

How To Think About Fluids In and Out of Classrooms: Developing Interactive Strategies for Learning Fluid Mechanics Online

A learning-centred computational fluid dynamics course for undergraduate engineering students

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