Browsing by Author "Rusman, Ellen"
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- Key pedagogical and technological factors for effective blended learning designPublication . Bidarra, José; Rusman, EllenThis is a report by the expert pools of the EMPOWER programme established by EADTU to cover the latest trends and developments in new modes of teaching. New modes of teaching and learning create new opportunities for enhancing the quality of the learning experience in on campus programmes, reaching out to new target groups off campus and offering freely accessible courses nationally or worldwide through the internet. They enhance the quality, visibility and reputation of the institution.
- A pedagogical model for science education through blended learningPublication . Bidarra, José; Rusman, EllenThis paper proposes a framework to support science education through blended learning, based on a participatory and interactive approach supported by ICT-based tools, called Science Learning Activities Model (SLAM). The study constitutes a work in progress and started as a response to complex societal developments such as a changing labour market, high turnover rate of knowledge, and use of technology as a natural part of daily life activities. Another concern was the emergence of new challenges in education, like learning in various authentic contexts and in collaboration with others, in ways that influence the circumstances learners live in. Many of these challenges are related to science and it would be expected that students were interested in science, however the contrary is the case. So, after reviewing the relevant literature and the current trend towards a learner-centred approach, we contend that there is a need to provide a model with which teachers can design science courses with high motivational impact on students. By using today’s flexible, interactive and immersive technologies (mobile, AR, VR) combined with the appropriate pedagogies, we believe it is possible to have students more motivated in science areas (STEM), and expect a more creative response to the world problems that surround them.
- Towards a pedagogical model for science education: bridging educational contexts through a blended learning approachPublication . Bidarra, José; Rusman, EllenThis paper proposes a design framework to support science education through blended learning, based on a participatory and interactive approach supported by ICT-based tools, called Science Learning Activities Model (SLAM). The development of this design framework started as a response to complex changes in society and education (e.g. high turnover rate of knowledge, changing labour market), which require a more creative response of learners to the world problems that surround them. Many of these challenges are related to science and it would be expected that students are attracted to science, however the contrary is the case. One of the origins of this disinterest can be found in the way science is taught. Therefore, after reviewing the relevant literature we propose the SLAM framework as a tool to aid the design of science courses with high motivational impact on students. The framework is concerned with the assumption that science learning activities should be applicable and relevant to contemporary life and transferable to ‘real-world’ situations. The design framework proposes three design dimensions: context, technology and pedagogy, and aims at integrating learning in formal and informal contexts through blended learning scenarios by using today’s flexible, interactive and immersive technologies (e.g. mobile, augmented reality, virtual reality).