Helping first-year engineering students to embrace the iterative and open-ended nature of engineering problem solving is a challenge when their prior learning experiences have focused heavily on achieving a correct answer in a single attempt. In this paper, the authors will present a case study of student work from the Fall 2007 implementation of Model-Eliciting Activities (MEAs) to demonstrate the impact of the iterative process of feedback and revision on the quality of student products. They will also discuss some of the future research questions resulting from the iterative process used with MEAs
The development and use of mathematical models and simulations underlies much of the work of enginee...
Modeling allows students to become more effective designers. High school technology and engineering ...
This 8-page paper, provided by the American Society for Engineering Education, describes Model Elic...
Improving Student Attainment of ABET Outcomes Using Model- Eliciting Activities (MEAs)Model-Elicitin...
AbstractA models and modeling perspective led to Model-Eliciting Activities (MEAs), authentic mathem...
Authentic open-ended problems are increasingly appearing in university classrooms at all levels. For...
Model Eliciting Activities (MEAs) are realistic open-ended problems set in engineering contexts; stu...
Abstract- Are you interested in creating open-ended, client-driven, realistic engineering tasks for ...
ABET requires that engineering graduates be able to work on multi-disciplinary teams and apply mathe...
Attracting students to engineering is a challenge. In addition, ABET requires that engineering gradu...
Abstract –This work presents the use and evaluation of model-eliciting activities (MEAs) in a first ...
This study focuses on characteristics of written feedback that influence students’ performance and c...
Model-Eliciting Activities (MEAs) are realistic, open-ended, client-driven engineering problems desi...
Model-Eliciting-Activities (MEAs) are open ended engineering problems set in realistic contexts, whi...
As part of a seven university CCLI* Type 3 collaborative effort focused on models and modeling, we h...
The development and use of mathematical models and simulations underlies much of the work of enginee...
Modeling allows students to become more effective designers. High school technology and engineering ...
This 8-page paper, provided by the American Society for Engineering Education, describes Model Elic...
Improving Student Attainment of ABET Outcomes Using Model- Eliciting Activities (MEAs)Model-Elicitin...
AbstractA models and modeling perspective led to Model-Eliciting Activities (MEAs), authentic mathem...
Authentic open-ended problems are increasingly appearing in university classrooms at all levels. For...
Model Eliciting Activities (MEAs) are realistic open-ended problems set in engineering contexts; stu...
Abstract- Are you interested in creating open-ended, client-driven, realistic engineering tasks for ...
ABET requires that engineering graduates be able to work on multi-disciplinary teams and apply mathe...
Attracting students to engineering is a challenge. In addition, ABET requires that engineering gradu...
Abstract –This work presents the use and evaluation of model-eliciting activities (MEAs) in a first ...
This study focuses on characteristics of written feedback that influence students’ performance and c...
Model-Eliciting Activities (MEAs) are realistic, open-ended, client-driven engineering problems desi...
Model-Eliciting-Activities (MEAs) are open ended engineering problems set in realistic contexts, whi...
As part of a seven university CCLI* Type 3 collaborative effort focused on models and modeling, we h...
The development and use of mathematical models and simulations underlies much of the work of enginee...
Modeling allows students to become more effective designers. High school technology and engineering ...
This 8-page paper, provided by the American Society for Engineering Education, describes Model Elic...