We cannot take access to equitable out‐of‐school science learning for granted. Data compiled in 2012 show that between a fifth (22% in Brazil) and half (52% in China and the United States) of people in China, Japan, South Korea, India, Malaysia, the United States, the European Union, and Brazil visited zoos, aquaria, and science museums (National Science Foundation, 2012). But research suggests participation in out‐of‐school science learning is far from equitable and is marked by advantage, not least the social axes of age, social class, and ethnicity (Dawson, 2014, 2014; National Science
Ideas from social justice can help us understand how equity issues are woven through out-of-school science learning practices. In this paper, I outline how social justice theories, in combination with the concepts of infrastructure access, literacies and community acceptance, can be used to think about equity in out-of-school science learning. I apply these ideas to out-of-school science learning via television, science clubs and maker spaces, looking at research as well as illustrative examples to see how equity challenges are being addressed in practice. I argue that out-of-school science
This essay intends to present and reflect on the production and reception of sound language styles in a radio programme discussing science called Universidade das Criancas UFMG (UFMG Children’s University). This programme, aimed at children, is broadcast on the UFMG (Federal University of Minas Gerais) Educational Radio Station, located in Belo Horizonte, Minas Gerais, Brazil.
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Josemir Almeida BarrosDebora d'Avila Reis
This document contains the appendices and literature review from the report "Art+Science: Broadening Youth Participation in STEM Learning." It includes assessment tools used during the project.
SETAC is funded by the Lifelong Learning Programme of the European Union and emerges out of the need to undertake specific action for the improvement of science education. It regards science education as among the fundamental tools for developing active citizens in the knowledge society. SETAC draws on the cooperation between formal and informal learning institutions, aiming to enhance school science education and active citizenship looking further into the role of science education as a lifelong tool in the knowledge society. On the day of the project’s conclusion, 31 October 2010, after two years of work SETAC contributes the following products and results to the field: 1. “Quality Science Education: Where do we stand? Guidelines for practice from a European experience” This is the concluding manifesto that presents the results of the SETAC work in the form of recommendations for practitioners working in formal and informal science learning institutions; 2. “Teaching and Learning Scientific Literacy and Citizenship in Partnership with Schools and Science Museums” This paper constitutes the theoretical framework of the project and innovative ways of using museums for science education and develop new modes of linking formal and informal learning environments; 3. Tools for teaching and learning in science: misconceptions, authentic questions, motivation. Three specific studies, leading to three specific reports, have been conducted in the context of the project, looking in particular into notions with an important role in science teaching and learning. These are on: Children’s misconceptions; Authentic questions as tool when working in science education; Students’ attitudes and motivation as factors influencing their achievement and participation in science and science-related issues; 4. Activities with schools: SETAC developed a series of prototype education activities which were tested with schools in each country. Among the activities developed between the partners, two have been chosen and are available on-line for practitioners to use and to adapt in their own context. These are: The Energy role game, a role game on Energy invites students to act in different roles, those of the stakeholders of an imaginary community, called to debate and decide upon a certain common problem; MyTest www.museoscienza.org/myTest, which aims to encourage students to engage in researching, reflecting and communicating science-oriented topics; 5. European in-service training course for primary and secondary school teachers across Europe. The training course is designed in such a way as to engage participants in debate and exploration of issues related to science education and active citizenship. The course is open to school teachers, headteachers and teacher trainers from all EU-member and associate countries. Professionals interested can apply for a EU Comenius grant. All the products of the project as well as information about the training course are available at the project website, some of them in more than one languages: www.museoscienza.org/setac
I-CLEEN, a project led by the Museum of Science of Trento (Italy), has developed and currently manages an information gateway of Earth system science educational resources. The aim of the project is to support Italian science teachers in setting up Earth science student-centred lessons. To do so effectively, the gateway exhibits the following key features: it adopts a bottom – up approach to resource development that relies on strong cooperation between science teachers and professional researchers (who also act as resource referees); it is subject–oriented and enhances the multi- and interdisciplinary traits that characterize geosciences; it embraces the concept of open source, through the technological tools (LifeRay) used and copyright policies adopted. A service usability study was performed after the first launch of the gateway and the results were used to develop the second release, which is currently online. During the preliminary phase of the project, as well as the development and set-up of the gateway, valuable insight was gained in various different fields: On the current situation in geoscience education in Italy – where teachers are encouraged to take up a student-centred approach, experiential education and learning initiatives, but currently opt for academic teaching methods because they lack the support and the tools needed. On the educational resource gateways currently available online, on the materials they provide and on the role of ICT in Earth science education. On the results achieved and the tools developed during previous science communication activities that involved teachers and students in research projects.
Assesses science-related attitudes along seven dimensions: social implications of science, normality of scientists, attitude toward scientific inquiry, adoption of scientific attitudes, enjoyment of science lessons, leisure interest in science, & career interest in science.
Assesses children's interest in, attitude towards, and experiences in science and technology, as well as their opinion about environmental challenges and career aspirations.
Dinosaur Island is a 3D computer simulation with herds of sauropods and ceratopsians, flocks of pteranodons, hunting packs of carnivores and authentic plants and trees from over 65 million years ago all controlled by the user. You can think of Dinosaur Island as a digital terrarium in which a balance between the species and their diets must be maintained or the ecosystem will collapse. It is up to the user to determine how many and what kinds of dinosaurs and plants populate the island. Start off simple with just a few sauropods and some plants; but you better make sure that those big plant-eaters have the right food to eat. Did you know that many of the plants from the Jurassic were poisonous? You also need to make sure that there are some carnivores around to keep those sauropod herds in check; otherwise they will quickly outstrip their food supplies. Dinosaur Island is an Adventure: Yes, it is a bit like those famous movies because you can take 'photographs' of your dinosaurs, save them, post them and share them with your friends (you can even 'name' your dinosaurs, 'tag' them and track them throughout their lives). You will be able to walk' with the dinosaurs without being trampled under their giant feet. You will be able to follow along when a female T-Rex goes out to hunt without fear of becoming dinner for her family. You will be able to 'garden' by 'planting' vegetation where you like and watch the plants grow over time. Dinosaur Island is Educational: Our reputation – both in our 'serious games' and our contracted simulations – is for historical accuracy. All of our computer games, serious games and simulations are meticulously researched. Dinosaur Island will also include an extensive hyperlinked interactive 'booklet' about the dinosaurs that live on Dinosaur Island, their habitat and the plants and vegetation that grow there. Designasaurus, the game that we created in 1987, was named Educational Game of the Year. We will exploit the computer environment that is now available (more memory and faster machines allow for 3D rendering) to make Dinosaur Island even more of an immersive educational experience. Dinosaur Island is Fun: Playing with herds of dinosaurs is just good fun. You can 'pick them up' and move them around, plant crops for them to eat or you can even 'get inside' a dinosaur and control its actions. Regardless of your age, Dinosaur Island is guaranteed to be hours of fun.