Purpose: This paper aims to discuss how the theory of complex thinking can be considered an interesting element in engineering education, especially in the context in which challenges toward sustainable development are multidisciplinary. Design/methodology/approach: This viewpoint synthesizes the main reflections and discussions generated during a…

Background: For engineers who aim to address sustainability challenges, participating in transdisciplinary teams is key. Yet developing transdisciplinary knowledge, including systems thinking, metacognition, and empathic thinking, is not well supported in traditional engineering programs. Purpose: The extent to which selected learning activities…

In the literature in recent years, a number of developmental studies have demonstrated the importance of children entering the school environment with a solid foundation of mathematical content knowledge and argued that problem solving, as an important mathematical process, should be acknowledged in early childhood mathematical education. However,…

The basis for mastering neurophysiology is understanding ion movement across cell membranes. The Electrochemical Gradients Assessment Device (EGAD) is a 17-item test assessing students' understanding of fundamental concepts of neurophysiology, e.g., electrochemical gradients and resistance, synaptic transmission, and stimulus strength. We…

Determining preservice teachers' competence in proportional reasoning is a very complex task, and existing research methods do not provide effective tools in doing that. This study describes an interview structure and application of it in determining preservice teachers' competence in proportional reasoning. The interview structure consists of…

Teaching the properties of geometric shapes in traditional ways does not help children to understand them, nor does it enable them to visualize them. It may need methods that correspond to the characteristics and tendencies of children and more interesting methods based on fun learning. Designing 3D geometric shapes with children through pop-up…

Even at the primary level, computational thinking (CT) can support young students to prepare for participating in futures that are immersed in data. In mathematics classrooms, there are few explanations of the ways CT can support students in formulating and solving complex problems. This paper presents an example of a primary classroom…

Ben Zunica describes a lesson in which computational thinking has been successful in assisting students to understand the process of simplifying surds. The strengths and limitations of this approach are discussed. The author concludes that computational thinking can assist in solidifying understanding of a range of mathematical processes for…

This review presents how chess improves student abilities and underlines inferences about chess and its educational benefits. In this study, quantitative samples, experimental designs, or test scores of studies are not the main focus. Numerous empirical studies and limited review studies about chess instruction in the literature express the effect…

Self-report assessments are used frequently in higher education to assess a variety of constructs, including attitudes, opinions, knowledge, and competence. Systems thinking is an example of one competence often measured using self-report assessments where individuals answer several questions about their perceptions of their own skills, habits, or…

Purpose: The aim is to qualitatively explore Civics teachers' assessment decisions regarding content, skills, and methods in Swedish upper secondary schools. Methodology: Thematic analyses of assignments and interviews of thirteen Civics teachers in Swedish upper secondary school. Findings: The open Swedish curriculum and Civics syllabus enables…

Since Wing "Communications of the ACM," 49, 33-35, (2006) popularized computational thinking (CT) as a skill for every student, it has gained significant traction as an approach to bring computer science tools and practices into K-12 classrooms. At the same time, teachers often see the relevance of CT as a tool to introduce problem…

The paper explores the phenomenon of the local-worldly university. Why should we cultivate "the Difference" in everyday practices of the university? The author refers to the Derridean "différance," to the idea of wonder ([Greek characters omitted]) and the Herderean concept of "Heimat." By putting these terms in the…

Computers and computer algorithms have contributed to important scientific advances by allowing scientists and engineers to create and use sophisticated models to explain and predict phenomena. Yet, of the eight "Next Generation Science Standards" ("NGSS") science and engineering practices, computational thinking may be the…

Through the experience both in the classroom and travels, the author comes to define the key aspects of critical thinking (CT) as "individual skills that facilitate logical and informed decisions." Beyond personal anecdotes, scientifically, the import of CT has been shown in many walks of life (see, e.g., Bauwens and Gerhard [1987]).…