RE-DESIGNING OF A PRODUCT DEVELOPMENT COURSE FOR MECHANICAL ENGINEERING STUDENTS BY SHIFTING RESPONSIBILITIES TO THEM

2017 ◽  
Author(s):  
Valentina Haralanova ◽  
Samir Khoshaba
Keyword(s):  
Product Development ◽  
Mechanical Engineering ◽  
Engineering Students ◽  
Development Course

Training mechanical engineering students to utilize biological inspiration during product development

2007 ◽  
Vol 2 (4) ◽  
pp. S198-S209 ◽  
Author(s):  
Hugh A Bruck ◽  
Alan L Gershon ◽  
Ira Golden ◽  
Satyandra K Gupta ◽  
Lawrence S Gyger ◽  
...  
Keyword(s):  
Product Development ◽  
Mechanical Engineering ◽  
Engineering Students ◽  
Biological Inspiration

Incorporating Basic Systems Thinking and Systems Engineering Concepts in a Sophomore-Level Product Design and Development Course

2016 ◽  
Author(s):  
Karim H. Muci-Küchler ◽  
Mark D. Bedillion ◽  
Cassandra M. Degen ◽  
Marius D. Ellingsen ◽  
Shaobo Huang
Keyword(s):  
Product Development ◽  
Systems Thinking ◽  
Systems Engineering ◽  
Mechanical Engineering ◽  
Undergraduate Curriculum ◽  
Low Complexity ◽  
Thinking Skills ◽  
Design And Development ◽  
Engineering Programs ◽  
Development Course

Although many US undergraduate mechanical engineering programs formally expose students to the basic concepts, methodologies, and tools used for the design and development of new products, the scope is usually limited to products of low complexity. There is a need to include activities in the undergraduate curriculum that allow students to learn basic systems engineering concepts, that promote the development of their systems thinking skills, and that allow them to practice these skills. This paper describes an initial effort at integrating systems engineering concepts in the curriculum focusing on a sophomore-level product development course. The paper discusses the approach that was used to identify topics related to systems thinking and systems engineering, provides the list of topics that were selected, and outlines the approach that will be used to incorporate those topics in the course. In addition, it provides the results of a pilot self-efficacy survey focusing on some of the topics selected that was delivered to junior students who had already taken a formal product development course. Although a specific course was considered, the same approach could be used in the context of the entire mechanical engineering undergraduate curriculum. Also, the results presented in the paper could be easily adapted to similar courses at other institutions.

Correlation between sustainability education and engineering students’ attitudes towards sustainability

2018 ◽  
Vol 19 (3) ◽  
pp. 459-472 ◽  
Author(s):  
Kuok Ho Daniel Tang
Keyword(s):  
Sustainable Development ◽  
Design Methodology ◽  
Engineering Students ◽  
Sustainability Education ◽  
Content Type ◽  
Fundamental Knowledge ◽  
Students Attitudes ◽  
Development Course ◽  
Beliefs And Attitudes ◽  
Insight Into

Purpose The purpose of this study is to investigate the impacts of a sustainable development course on the beliefs, attitudes and intentions of a cohort of engineering students in a university in Miri, Malaysia, towards sustainability. Design/methodology/approach Questionnaire survey was conducted among the cohort of students encompassing the three facets mentioned. Findings The respondents expressed low to medium agreement towards all the survey items related to beliefs, attitudes and intentions. A sense of moral obligation towards sustainability is linked to higher sustainability awareness, willingness to safeguard sustainability and a sense of responsibility towards sustainable development. The respondents were generally perceived to have fundamental knowledge of sustainable development. Research limitations/implications This study shows that a sustainable development course called Engineering Sustainable Development offered in a university in Miri, produced positive impacts on the beliefs, attitudes and intentions of the engineering students towards sustainable development. Sustainable development courses are generally instrumental to impart the value and practices of sustainability among university students. Originality/value As limited correlational studies on whether sustainable development courses effectively shape the beliefs and attitudes of students have been previously conducted, this study provides insight into the effectiveness of one of such courses and how the course can be further improved to enhance its effectiveness.

A Pillar of Mechanical Engineering Design Education in Australia: 25 Years of the Warman Design and Build Competition

2013 ◽  
Author(s):  
Warren F. Smith
Keyword(s):  
Engineering Design ◽  
Design Education ◽  
Mechanical Engineering ◽  
Engineering Students ◽  
Student Assessment ◽  
National Committee ◽  
Engineering Design Education ◽  
Wide Range ◽  
Institutional Learning ◽  
History Of

The “Warman Design and Build Competition”, running across Australasian Universities, is now in its 26th year in 2013. Presented in this paper is a brief history of the competition, documenting the objectives, yearly scenarios, key contributors and champion Universities since its beginning in 1988. Assuming the competition has reached the majority of mechanical and related discipline engineering students in that time, it is fair to say that this competition, as a vehicle of the National Committee on Engineering Design, has served to shape Australasian engineering education in an enduring way. The philosophy of the Warman Design and Build Competition and some of the challenges of running it are described in this perspective by its coordinator since 2003. In particular, the need is for the competition to work effectively across a wide range of student group ability. Not every group engaging with the competition will be competitive nationally, yet all should learn positively from the experience. Reported also in this paper is the collective feedback from the campus organizers in respect to their use of the competition as an educational experience in their classrooms. Each University participating uses the competition differently with respect to student assessment and the support students receive. However, all academic campus organizer responses suggest that the competition supports their own and their institutional learning objectives very well. While the project scenarios have varied widely over the years, the intent to challenge 2nd year university (predominantly mechanical) engineering students with an open-ended statement of requirements in a practical and experiential exercise has been a constant. Students are faced with understanding their opportunity and their client’s value system as expressed in a scoring algorithm. They are required to conceive, construct and demonstrate their device with limited prior knowledge and experience, and the learning outcomes clearly impact their appreciation for teamwork, leadership and product realization.

scholarly journals Development and delivery of a work experience week programme for mechanical engineering

2020 ◽  
pp. 030641902098104
Author(s):  
A Gonzalez-Buelga ◽  
I Renaud-Assemat ◽  
B Selwyn ◽  
J Ross ◽  
I Lazar
Keyword(s):  
Work Experience ◽  
Mechanical Engineering ◽  
Engineering Students ◽  
Impact Analysis ◽  
Legal Term ◽  
Stage 4 ◽  
Engineering Design Problem ◽  
Hands On ◽  
University Of Bristol ◽  
The University

This paper focuses on the development, delivery and preliminary impact analysis of an engineering Work Experience Week (WEW) programme for KS4 students in the School of Civil, Aerospace and Mechanical Engineering (CAME) at the University of Bristol, UK. Key stage 4, is the legal term for the two years of school education which incorporate GCSEs in England, age 15–16. The programme aims to promote the engineering profession among secondary school pupils. During the WEW, participants worked as engineering researchers: working in teams, they had to tackle a challenging engineering design problem. The experience included hands-on activities and the use of state-of-the-art rapid prototyping and advanced testing equipment. The students were supervised by a group of team leaders, a diverse group of undergraduate and postgraduate engineering students, technical staff, and academics at the School of CAME. The vision of the WEW programme is to transmit the message that everybody can be an engineer, that there are plenty of different routes into engineering that can be taken depending on pupils’ strengths and interests and that there are a vast amount of different engineering careers and challenges to be tackled by the engineers of the future. Feedback from the participants in the scheme has been overwhelmingly positive.

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