This study explored the differences in the effects of directive versus reflective feedback on elementary school students' conceptual understanding and epistemological beliefs in a simulation-based online science inquiry environment, by comparing more fine-grained differences in the inquiry behaviors of students who received the two types of…

This study compared the effectiveness of online skeuomorphic physics inquiry-based learning with and without simulation on 8th-grade students' performance of scientific inquiry involving the spring unit. Two classes (58 students) were assigned to the online skeuomorphic physics inquiry-based learning with simulation, and two classes (59 students)…

A differentiated science activity was created for gifted students. The focus is on Sustainable Development Goal 15 (SDG-15) for life on land, enhancing engagement, self-regulated learning skills, and scientific creativity in gifted students. The activity spanned eight lesson hours, with tasks encouraging observation, inquiry, and creative…

Digital instructional tools, such as virtual manipulatives, have been widely adopted as an enhanced approach to inquiry-based learning. However, the optimal ratio of mobile devices to students in instructional settings remain controversial. This research introduced a counterbalanced quasi-experiment to compare the learning performance and…

This action research study aimed to find ways to adjust my practice by incorporating inquiry-based, science activities and virtual simulations to improve student conceptual understanding of physical and chemical changes. A multi-lesson, curricular intervention combining inquiry-based activities and virtual simulations was developed using…

In this article we illustrate how one teacher used PhET cannonball simulation as an instructional tool to improve students' algebraic reasoning in a fifth grade classroom. Three instructional phases effective to implementation of simulation included: Free play, Structured inquiry and, Synthesizing ideas.

The impact of Augmented Reality (AR)-based science learning on cognitive development has been established, but the effect of AR on the improvement of students' academic performance remains inconclusive. Additionally, while epistemic beliefs as a significant determinant on student learning outcomes is well-documented, there is little research in…

This study aims to explore the impact of an augmented reality (AR) scientific inquiry tool based on a brain-computer interface (BCI) on students' scientific performance, flow experience, self-efficacy, and cognitive load of primary school students. The BCI-based AR inquiring tool provides real-time attention feedback to students' activities in an…

In inquiry-based science lessons teachers face the challenge of adhering to curricular goals while simultaneously following students' intuitive understandings. Improvisation (improv) provides a useful frame for understanding teaching in these inquiry-based contexts. This paper builds from prior work that uses improv as a metaphor for teaching to…

Notwithstanding the advantages of incorporating Augmented Reality (AR) in education, AR's concrete uses as compared to other technologies are not fully recognised. Moreover, many of the existing studies have neglected to examine the impact of pedagogy and its corresponding instructional models, whilst implementing AR in teaching and learning. In…

Developing models and using mathematics are two key practices in internationally recognized science education standards, such as the Next Generation Science Standards (NGSS). However, students often struggle with these two intersecting practices, particularly when developing mathematical models about scientific phenomena. Formative…

Augmented reality (AR) can represent a contextualised scientific inquiry environment in which students may explore the real world and develop science process skills via interacting with rich information from virtual systems. However, it remains a challenge for most students to complete scientific inquiry tasks without proper support. Research…

Despite increasing calls for science education that utilizes immersive technologies and authentically model scientific inquiry, little is known about how well curricula leveraging these technologies impact students' science identity. This paper presents a mixed-methods study of identity exploration in 7th grade science students using a three-week…

Developing the problem-solving abilities of elementary school students has been recognized as an important educational objective. Science curricula, because of their practical and experimental characteristics, are thought to be an important way to develop students' problem-solving ability. The use of Virtual Reality (VR) technology in teaching…

The purpose of this study was to explore how students interacted with guidance to conduct a scientific inquiry in a physics simulation by using the eye-tracking techniques. The participants were 51 7th graders, and an eye-tracking system was used to record their visual behaviors and log data while they were using the simulation. As for data…