This study examines the effectiveness of problem-based learning (PBL) technology in forming a foreign language professionally oriented competence of students of non-linguistic specialities. It was conducted with 60 students divided into experimental and control groups, who were taught a professionally oriented foreign language. The experimental…

The subject of physics can sometimes seem esoteric and challenging to engineering students. It would be beneficial to create a more conducive learning environment for them by combining words, mathematical equations, graphs, and diagrams to increase their problem-solving abilities. It has been demonstrated in mechanics that employing multiple…

Imagine handing out assessments that spark enthusiasm rather than dread. In six easy-to-follow steps, this book empowers science teachers to create tasks that guide students to use their knowledge, not just memorize facts. The NGSA design process transforms assessments into valuable classroom tools that teachers can use to chart how students'…

Physically active learning is considered to enhance learning and additionally addresses health goals like increasing activity levels and reducing obesity. However, physically active learning has rarely been applied to science and engineering learning, or utilized with younger learners (e.g under sevens). This article describes a physically active…

While there is much research concerning the interpretation of diagrams such as geographical maps and networks for information systems, there is very little on the diagrams involved in electrical and electronic engineering. Such research is important not only because it supports arguments made for other types of diagrams but also because it informs…

This paper reports on a two-year project to form teaching development groups in engineering departments. The goal of each group was to discuss and implement interactive teaching strategies (e.g., in-class problem solving). The research design used meetings notes, feedback from group leaders and a case study of one participant to describe how the…

Curricula in computer engineering, computer science, and other related fields include several courses about hardware design. Examples of these courses are digital logic design, computer architecture, microprocessors, computer interfacing, hardware design, embedded systems, switching theorem, and others. In order for the students to realize the…

Contributions: This article presents the findings of a study on the impact of instructional interventions (training and additional requirements and prompts) to improve the quality of students' self-and-peer assessment in a capstone engineering technology course. Background: Historically, students in this course inflated rating values in comparison…

Argumentation and metacognitive reflection are required for effective thinking and convincing argumentation in engineering co-design. This study investigated engineering students' argumentation and metacognitive reflection in their final group reports and their correlation with the quality of their work in co-design. The groups practiced and…

Background: Despite well-documented benefits, instructor adoption of active learning has been limited in engineering education. Studies have identified barriers to instructors' adoption of active learning, but there is no well-tested instrument to measure instructors perceptions of these barriers. Purpose: We developed and tested an instrument to…

Purpose: This paper aims to present a methodology for analysing the extent to which students of a university degree perceive that they have received a good education for sustainable development (ESD). The methodology enables us to quantify this perception, which, in turn, allows us to determine: to what extent the objectives related to ESD are…

Based on the largest multi-institutional observational study of undergraduate courses in the United States, this article describes exemplar teaching practices in engineering courses as an interdisciplinary science field. The College Educational Quality (CEQ) research project studied 587 courses in nine different U.S. colleges and universities.…

Contribution: This article discusses the use of manufacturing simulation games to study collaborative problem-solving skills in engineering students. The simulation represents the mass production paradigm in which large quantities of identical products are produced. Empirical data is collected from the simulation to evaluate the skills engineering…

Contribution: To guide engineering educators on the complex path of understanding how to teach future engineers and how they can help engineering students to obtain the professional competencies required by frameworks and syllabus, based on didactic techniques that determine an orderly learning process. Background: University education is…

Students, instructors, and policy makers are in need of research-based recommendations for supporting students' motivation to pursue STEM fields. The present study addressed this need by examining relations between perceived motivational supports, year-long trajectories of expectancy for success and three task values, and grades among students (N…