The purpose of this qualitative case study was to explore how youth's engineering identity has changed in the process of productive struggle in Making activities in the Midwestern U.S in a summer program. The researchers conducted focus-group interviews, and also administered an Engineering Identity survey as well as the Draw an Engineer Test to…

The competence to work together and co-create with others outside one's own scientific domain, culture or professional practice is a critical competence for engineers to respond to global challenges. In this context, boundary crossing (BC) competence is crucial. We reflect on a university-wide participatory action research educational innovation…

Practical activities are at the core of learning in both engineering and science education programs. Hence, such activities are included as important practical learning experiences in each of these fields. During such learning experiences students are confronted by many different entities, from simple equipment to advanced instrumentation, all of…

Purpose: This study investigates the role of the engineering education environment created by the implementation of the "Plan for Educating and Training Outstanding Engineers" (PETOE) on the professional capability development of engineering students from the perspective of students' experience. Design/Approach/Methods: This study uses…

Below the surface of the ocean, currents, eddies, and other physical processes redistribute energy and biologically important elements. Measuring this transport can be challenging, and scientists must address a wide spectrum of oceanographic and engineering concepts when designing instruments to observe these processes. In this activity,…

The use of virtual labs in higher education is gaining growing interest, with different debates in the literature about their role in addressing learning outcomes and balancing hands-on activities. This study seeks to understand how labs can be virtualised and thus structured to contribute to engineering education, by adopting an innovative…

The country is facing infrastructure crises simultaneous with a labor shortage in fields related to construction management and engineering. These challenges necessitate better and quicker preparation of the incoming workforce so they are prepared to take on responsibilities with more skill and efficiency than has been expected previously.…

Background: During the COVID-19 pandemic, restricted access to in-person facilities and traditional experiential learning activities meant that new, online solutions were needed to facilitate student learning/development across the disciplines of Allied Health and Engineering. Purpose: This article describes research conducted as part of an…

The development of experiential learning methodologies is gaining attention, due to its contributions to enhancing education quality. It focuses on developing competencies, and build-up added values, such as creative and critical thinking skills, with the aim of improving the quality of learning. The interdisciplinary mechatronics field…

Children look to school to provide stability, role models and wider skills. As part of the school's ongoing STEM journey, it is really important to ensure opportunities are provided to develop students' social and science capital. Engineering education goes hand in hand with good self-esteem, a growth mind set and an evolving confidence to be able…

The basic concepts inherent to statics, including unbalanced and balanced forces and instability and stability of physical systems, have traditionally been covered in middle and high school physical science courses (Physical Science as indicated in "Next Generation Science Standards"). Yet, these concepts are covered using a physical…

The paper rocket activity described in this article effectively teaches the engineering design process (EDP) by engaging students in a problem-based learning activity that encourages iterative design. For example, the first rockets the students build typically only fly between 30 and 100 feet. As students test and evaluate their rocket designs,…

What better way to engage fifth-grade students in science and engineering practices than to use paper airplanes to encourage them to question, explore, create, and test designs! This multi-day unit draws from a fourth-grade curriculum (Pearson 2012) aligned with the "Next Generation Science Standards" (NGSS Lead States 2013) used in…

Engineering design courses are particularly challenging to deliver in online or distance modalities because of the hands-on, collaborative nature of the design process and the need for physical resources and work spaces. In this work, we describe how we rapidly transformed two design courses in the middle two years of the biomedical engineering…

The concept of hands-on, heads-on, and hearts-on (3Hs) education, which conceptualises "whole-child" development in terms of a child's cognitive, social, physical, and affective domain can be appropriately integrated into elementary engineering education. This study aimed to assess parents' perceptions on a 3Hs elementary engineering…