PUBLICATIONS
003 – Preface of the Symposium on Computers, Modelling and Interactive Environments in Science, Technology, Engineering and Mathematics Education
002 – Enhancing Teaching and Learning of Fluid Mechanics with Interactive Computational Modelling
Contemporary science, technology, engineering and mathematics (STEM) increasingly require advanced knowledge about mathematical physics models and methods of scientific computation. In STEM educational environments this entails the necessity to implement pedagogical curricula and methodologies that epistemologically balance the inclusion of interactive engagement sequences of computational modelling activities, and offer students opportunities to develop meaningful knowledge of physics, mathematics and scientific computation, as well as of the specific STEM concepts and processes. Our approach in this context is based on interactive engagement activities built around computational modelling experiments implemented in the Modellus environment that span the range of different kinds of modelling, from exploratory to expressive modelling. In this paper we describe research concerning a sequence of activities about hydrostatic pressure forces and torques, a theme of an introductory fluid mechanics course for undergraduate university engineering students having only elementary knowledge of secondary education physics and mathematics and no significant prior knowledge about scientific computation. We analyse student’s perceptions about the activities and the effects generated on the learning process. Using a Likert scale questionnaire, we show that students reacted positively to the Modellus based activities, considering them helpful in the learning process of the mathematics and physics of fluid mechanics and for their overall professional training. The results also show that students considered Modellus a useful software for computational activities that help the learning of mathematical physics models, sufficiently easy to learn and user-friendly. Based on the analysis of student’s work content, we show that students were able to construct and explore the proposed mathematical physics models and simulations, and establish meaningful and operationally reified relations with the relevant hydrostatic phenomena. We also show that the computational modelling activities were effective in resolving several difficulties persisting after theoretical lectures and problem-solving paper and pen activities.
001 – From Institutional Websites to Social Media and Mobile Applications: A Usability Perspective
Mobile applications (MA) and social media (SM) platforms are changing Internet user behavior. This study aims to unveil within current academic literature, the fields where usability research has been focusing their efforts in the dimensions institutional websites (IW), SM and MA usability, and to suggest possible paths for future studies. Search was performed in peer-review journals, providing 302 published articles between 1994 and 2018. To examine the manuscripts, text mining (TM) was adopted to discover pertinent terms, and to reveal trends, gaps and opportunities for future research. Results show a gap on marketing and nutrition research fields and an increasing interest in the usability principles of SM technology in general. Moreover, many articles are associated with the health and medical area, suggesting a more mature development of these fields.
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