Hands-on activities in science learning are beneficial in enhancing creative thinking in students. However, scant studies have probed the nature of creative thinking developed by hands-on activities, particularly among primary school students and further investigation is thus mandated. Therefore, this study aims to explore the creative thinking…

While participation in undergraduate research has many benefits for students including increased confidence and persistence in engineering, community college students do not have the same access to research as students at four-year institutions. To address this disparity, we developed a soft robotics-focused undergraduate research lab at a…

This study aims to explore psychomotor performance and perception on task-centered hands-on STEM learning of educational robotics. The study adopted a convergent parallel mixed method to gather both quantitative and qualitative data in the same period of time. Participants were 42 tenth-grade students (25 male students and 17 female students) from…

The global pandemic (COVID-19) has devastated tens of millions of people suffering from separation anxiety among family members, economic crisis, health issues in sensitive groups, and even education landscapes. In response to COVID-19, a hands-on, virtual STEM camp is proposed to stimulate American youth for the future workforce. The project aims…

Non-formal STEM education programs can expose youth to STEM concepts outside the formal school environment. These programs employ education techniques such as hands-on learning, problem-solving, and connection to authentic science experiences. Youth participating in non-formal STEM programs are more likely to consider themselves science people and…

Artificial intelligence (AI) technologies continue to revolutionize various sectors, including their incorporation into education, particularly in K-12 science education, which has become evidently significant. This paper presents a bibliometric analysis and systematic review that examines the incorporation of AI technologies in K-12 science…

Finding context, examples, and ample hands-on experimentation is fundamental for understanding complex ideas in subjects such as science and math. Recent popularity of competitive robotics has become a catalyst in the development of DIY and hobby kits. Manufacturers have made available easy to work, re-configurable, and functional, structural…

This research was supported within the scope of TÜBITAK-4004 Nature Education and Science Schools Program with Project number 121B899. In this research, it is aimed to evaluate the "Artvin gets Color with Science and Robotics 2" project, which was carried out with 30 secondary school 6th and 7th grade students between 2-8 August 2021…

The perspective that computing and computational thinking (CT) are necessary competencies for the 21st century is increasingly pervasive. Computational concepts and methods--problem solving, designing systems, refining the steps in a process, and tinkering toward creative solutions--are relevant in nearly every discipline, profession, and…

Robotics education has gradually been emphasized in contemporary school curricula; however, assessment tools for robotics learning are still limited. Based on Bloom's Taxonomy of educational objectives, this study aimed to develop the Robotics Learning Self-Efficacy Scale (RLSES) with a two-level construct of five dimensions for assessing…