Volume 2. Proceedings of the Interdisciplinary STEM Teaching and Learning Conference

Full version of volume 2 of the Proceedings of the Interdisciplinary STEM Teaching and Learning Conferenc

Towards a framework for investigating tangible environments for learning

External representations have been shown to play a key role in mediating cognition. Tangible environments offer the opportunity for novel representational formats and combinations, potentially increasing representational power for supporting learning. However, we currently know little about the specific learning benefits of tangible environments, and have no established framework within which to analyse the ways that external representations work in tangible environments to support learning. Taking external representation as the central focus, this paper proposes a framework for investigating the effect of tangible technologies on interaction and cognition. Key artefact-action-representation relationships are identified, and classified to form a structure for investigating the differential cognitive effects of these features. An example scenario from our current research is presented to illustrate how the framework can be used as a method for investigating the effectiveness of differential designs for supporting science learning

Auditory and haptic feedback to train basic mathematical skills of children with visual impairments

Physical manipulatives, such as rods or tiles, are widely used for mathematics learning, as they support embodied cognition, enable the execution of epistemic actions, and foster conceptual metaphors. Counting them, children explore, rearrange, and reinterpret the environment through the haptic channel. Vision generally complements physical actions, which makes using traditional manipulatives limited for children with visual impairments (VIs). Digitally augmenting manipulatives with feedback through alternative modalities might improve them. We specifically discuss conveying number representations to children with VIs using haptic and auditory channels within an environment encouraging exploration and supporting active touch counting strategies while promoting reflection. This paper presents LETSMath, a tangible system for training basic mathematical skills of children with VIs, developed through Design-Based Research with three iterations in which we involved 19 children with VIs and their educators. We discuss how the system may support training skills in the composition of numbers and the impact that the different system features have on slowing down the interaction pace to trigger reflection, in understanding, and in incorporation.Universitat Pompeu Fabra (Spain) through MIREGAMIS: 2018 LLAV 00009Agencia Nacional de Investigación e Innovación - ANIIFundación CeibalCentro Interdisciplinario en Cognición para la Enseñanza y el Aprendizaje - CICEA, Universidad de la RepúblicaUniversitat Oberta de Catalunya (Spain) through Ministry of Science, Innovation, and Universities IJCI-2017-32162LASIGE Research Unit (Portugal) through FCT project mIDR (AAC02/SAICT/-2017, project 30347, cofunded by COMPETE/FEDER/FNR), the LASIGE Research Unit, ref. UIDB/00408/2020 and ref. UIDP/00408/2020

Math empowerment: a multidisciplinary example to engage primary school students in learning mathematics

This paper describes an educational project conducted in a primary school in Italy (Scuola Primaria Alessandro Manzoni at Mulazzano, near to Milan). The school requested our collaboration to help improve upon the results achieved on the National Tests for Mathematics, in which students, aged 7, registered performances lower than the national average the past year. From January to June, 2016, we supported teachers, providing them with information, tools and methods to increase their pupils’ curiosity and passion for mathematics. Mixing our different experiences and competences (instructional design and gamification, information technologies and psychology) we have tried to provide a broader spectrum of parameters, tools and keys to understand how to achieve an inclusive approach that is ‘personalised’ to each student. This collaboration with teachers and students allowed us to draw interesting observations about learning styles, pointing out the negative impact that standardized processes and instruments can have on the self‐esteem and, consequently, on student performance. The goal of this programme was to find the right learning levers to intrigue and excite students in mathematical concepts and their applications. Our hypothesis is that, by considering the learning of mathematics as a continuous process, in which students develop freely through their own experiments, observations, involvement and curiosity, students can achieve improved results on the National Tests (INVALSI). This paper includes results of a survey conducted by children ‐’About Me and Mathematics‘

Motivating children to learn effectively: exploring the value of intrinsic integration in educational games

The concept of intrinsic motivation lies at the heart of the user engagement created by digital games. Yet despite this, educational software has traditionally attempted to harness games as extrinsic motivation by using them as a sugar coating for learning content. This article tests the concept of intrinsic integration as a way of creating a more productive relationship between educational games and their learning content. Two studies assessed this approach by designing and evaluating an educational game called Zombie Division to teach mathematics to 7- to 11-year-olds. Study 1 examined the learning gains of 58 children who played either the intrinsic, extrinsic, or control variants of Zombie Division for 2 hr, supported by their classroom teacher. Study 2 compared time on task for the intrinsic and extrinsic variants of the game when 16 children had free choice of which game to play. The results showed that children learned more from the intrinsic version of the game under fixed time limits and spent 7 times longer playing it in free-time situations. Together, these studies offer evidence for the genuine value of an intrinsic approach for creating effective educational games. The theoretical and commercial implications of these findings are discussed

Gamification and Coding to Engage Primary School Students in Learning Mathematics: A Case Study

This paper describes a pilot educational project made in a Primary School in Italy (Scuola Primaria Alessandro Manzoni at Mulazzano, Milan) implemented in 2016 and 2017. The project was born from a specific request: the school aimed at improving the results achieved by students aged 7 during the National Tests for Mathematics since they registered performances lower than the National Average. In this context, we supported teachers providing information tools and methods to improve performances. Our aim was to develop new game-oriented approaches to problem-solving, mixing our different experiences and competences (organization design, information technologies, psychology). We provided a broader spectrum of parameters tools and keys to understand how to achieve an inclusive approach personalized on students, involving them and their teachers in the project. This cooperative approach allowed us to collect interesting observations about learning styles, pointing out the negative impact that standardized processes and instruments can have on self-esteem and consequently on the performance of pupils. We argue that addressing pupils in considering mathematics as continuous research and development can increase their performances in National Tests execution. Children free to realize their own experiments and observations dramatically improve their involvement and curiosity about Mathematics

Emerging digital media, games and simulations: a challenge for open and distance learning

In this article we examine the state-of-the-art research related to digital media in education and evaluate the information concerning a new generation of students that are communityminded and technologically savvy, highlighting the innovative technology behind the new interaction and communication processes, and assessing the challenges for Open and Distance Learning (ODL). Where traditional distance education is based on the completion of carefully graded assignments and tests, today games, simulations and virtual environments may become safe platforms for trial and error experimentation. With games the chance of failure is high, but the cost is low and the lessons are learned immediately and with greater emotional impact. However, these conditions may become more difficult to address when the volume of users increases from small to medium, large or extra-large. Dealing effectively with tens or even hundreds of thousands of students in absentia requires following very sound organizational principles and good technical implementation, systematic monitoring of deviations from established norms, regular audition of users' comments and criticisms, careful analysis of final results. In this emerging scenario, involving digital media, games and simulations, ODL systems must have means of establishing rich connections with each member of the universe of users. In this sense we propose using a virtual space with multiple places, in ways that use the Internet, social applications, games and mobile devices to involve students in pedagogical activities