This article illustrates the potential for hackathons to serve as an innovative educational tool in addressing the underrepresentation of minority communities in science, technology, engineering, and mathematics (STEM) fields. Using Merced, California--a region recognised for its agricultural economy, socioeconomic disparities, and diverse…

With the growing desire to incorporate data science and informatics into STEM curricula, there is an opportunity to integrate research-based software and tools (e.g., Python) within existing pedagogical methods to craft new, accessible learning experiences. We show how the open-source Jupyter Book software can achieve this goal by creating a…

While computational thinking arises as an essential skill worldwide, formal primary and secondary education in Latin America rarely incorporates mechanisms to develop it in their curricula. The extent to which students in the region acquire computational thinking skills remains largely unknown. To start addressing this void, this article presents…

The Arduino is a popular and useful tool in STEM and physics education. Teacher demonstrations, laboratory and home work are supported by an incredibly wide range of application examples for a low cost. Since the heart of the Arduino board is an industrial microcontroller, it is a good chance to teach the basics of the related rules, standards and…

Coping with a virtual and abstract reality has become part of everyday life. Therefore, perceptions of what will constitute everyday life experiences for future generations are next to impossible to predict. One way of preparing young children for such a future is the implementation of teaching towards digital competence in curricula around the…

This article presents steps that can be used to expose children to concrete experiences of practicing coding using unplugged activities, including using directional words or directional arrows, using sequential words, combining both directional and sequential words, and connecting with grids.

Robot toys can be used to promote STEM subjects, particularly coding and mathematics. The lesson described in this article illustrates how a robot toy was used with a number line to explore equality and missing addends in Year 1. The lesson progression models how activities can be sequenced to build on developing understandings while supporting…

There is an increasing need for research chemists and biochemists to have a basic familiarity with computer programming. Adding programming content to already crowded STEM undergraduate curricula, however, can be challenging. When programming content is introduced within the chemistry curriculum, it is most often incorporated into upper division…

This overview demonstrates the need for school librarians to consider supplementing coding instruction with ethical discussions. School librarians are increasingly incorporating coding into library instruction through play, tutorials, collaboration in content areas, and design thinking projects. To enhance students' ethical decision making and…

Robotics is emerging as an effective strategy for bridging the gap between technology and engineering design in early childhood classrooms (Bers, Seddighin, and Sullivan 2013). Using a science, technology, engineering and mathematics (STEM) grant received from the authors' school, they purchased a KIBO-18 set from KinderLab Robotics…

A single laboratory exercise in introductory physics that includes a bit of calculus, a little programming, some breadboard wiring, and making mathematical connections between motion, net force, and power provides a nice STEM experience for students. If you can add in a biomechanics component you hopefully have something that overall can be an…

In an ever-increasing technological society, teachers have now, more than ever, a vast offering of educational technologies made available for classroom use. However, the time necessary for vetting and developing rigorous lessons with the usage of such technologies can be overwhelming for a classroom teacher. Still, teachers need the opportunity…

In this paper, we use our qualitative research notes and observations to portray a model for integrated STEM education and summarise primary school students' typical and recurring ways in which they engaged with each new robot. The purpose of this paper is two-fold: first, to unpack key elements of the Australian Curriculum: Technologies in order…

In this paper, an example is offered of a problem-solving task for senior secondary school students which was given in the context of a story. As the story unfolds, the task requires progressively more complex forms of linear programming to be applied. Coding in MATLAB is used throughout the task in such a way that it supports the increasing…

Course-based undergraduate research (CURE) is an educational paradigm to engage students in authentic research projects as part of their classroom experience. We present a course-based undergraduate research experience (CURE) for first-year students to get acquainted with the research process and apply the skills of scientific computing to…