The field of life science is facing a great challenge, in that the tools are beginning to outpace the user. Technology has rapidly been accelerating while the knowledge to use this new tech has been unable to keep pace. For example: as the recent push to get the faster, cheaper sequencing machine designed has inspired engineers to design…

Cognitive processes such as learning and thinking are theorized to be an interaction between the mind, body, and environment in four ways: embodied, embedded, enacted, and extended. Collectively, these four types represent the four "E"s of cognition. The "Next Generation Science Standards" has called for curricular reform that…

Background: Informal science activities are critical for supporting long-term learning in STEM fields. However, little is known about the kinds of activities children and their families engage in outside of formal settings and how such activities foster long-term STEM engagement. One gap in the literature is the lack of data that document…

Objectives: To describe the implementation of a hybrid and an online active-learning-based science activity originally designed for face-to-face instruction. The goal was to verify if students used appropriate science practices while engaged in a problem solution through hybrid and fully online modalities. Epistemic practices are important markers…

As the COVID-19 pandemic became widespread in early 2020, people around the world felt scared, confused, and at a loss for how to help their fellow humans. Suddenly, young and old alike needed to understand the science of virology and how to protect themselves and others, while the world's scientific understanding of the specific COVID-19 virus…

In Africa, Science education curricula have been instrumental in promoting Western worldviews as being universal. An educational transformation and decolonisation of the school curriculum is required. A focus on an African worldview and an integration of the local context and community-based information is necessary for survival, i.e., Indigenous…

This book brings together a collection of work from around the world in order to consider effective STEM, robotics, mobile apps education from a range of perspectives. It presents valuable perspectives--both practical and theoretical--that enrich the current STEM, robotics, mobile apps education agenda. As such, the book makes a substantial…

Video analysis with a 30 Hz frame rate is the standard tool in physics education. The development of affordable high-speed-cameras has extended the capabilities of the tool for much smaller time scales to the 1 ms range, using frame rates of typically up to 1000 frames s[superscript -1], allowing us to study transient physics phenomena happening…

The result of additive colors is always fascinating to young students. When we teach this topic to 14- to 16-year-old students, they do not usually notice we use maximum light quantities of red (R), green (G), and blue (B) to obtain yellow, magenta, and cyan colors in order to build the well-known additive color diagram of Fig. 1. But how about…

Social media are a highly visible factor in the daily lives of our students. Why should teachers not take advantage of this and develop teaching and learning materials that use the designs found in such media to contextualise science learning? This article suggests some ideas for creating lab instructions using social media design as an innovative…

The authors describe the design and formative evaluation of a sensor toolkit for Android smartphones and tablets that supports inquiry-based science learning. The Sense-it app enables a user to access all the motion, environmental and position sensors available on a device, linking these to a website for shared crowd-sourced investigations. The…

Digital games for learning have quickly transitioned from a theoretical possibility, to a hyped technology, to an idea that almost seems quaint compared to advances in Biochips, Smart Robots, and self-driving cars. As a field, it is now better understand what games are good for, what they are not, and in what kinds of situations they can be…

This article provides an overview of several studies in which the authors draw on social media, storytelling, and mobile apps to help children playfully develop their own approaches to science. The authors detail their efforts to strike a balance between the structure needed to promote science learning and the flexibility needed to nurture…

As state boards of education and other state policymakers consider the future of schools, sorting fad technology from technology that accelerates learning is key. Virtual reality (VR) is one such technology with promise that seems unlikely to fizzle. Hailed as potentially transformative for education and still in the early stages of application,…

Augmented Reality (AR) technology and games can enhance motivation for learning. When combined with mobile devices, AR technology can promote authentic learning in outdoor environments, such as urban parks. These spaces can be used for Science Education, particularly, for environmental education and nature conservation. The EduPARK project…