Educational assessment systems are frequently challenged by divergent stakeholder needs. A major insight from experts who work on school assessment systems is the need to clearly articulate and evaluate assessment choices in relation to these distinct goals. The out-of-school STEM ecosystem faces similar challenges. This background paper presents ideas for new assessment methodologies that include biographical and narrative approaches, measures of sustained learning, and social network representations to complement more traditional approaches that capture average effects of a particular
The long-term goal is to broaden our model program that currently targets African-American populations in the national capital area. The aim of the program is to: a) educate junior and senior high students and elementary school teachers directly; and b) provide opportunities for exploration of health-related sciences for the public at large (via an interactive website) so that topics in the biomedical sciences become "friendly and familiar" rather than the existing stereotype that science is erudite, obtuse, and incomprehensible. Specific objectives: (A) Design hands-on experiences in science laboratories and opportunities to interact with scientists in the setting of a sophisticated research institute; especially target under-represented minorities, students from inner city schools and other local schools where science opportunities may be limited. This will include junior and high school students, elementary school teachers, as well as interactions with Children's Museum and other similar organizations. (B) Set up interactive web-based informatics to include: i) a system where high school students could refine the question they are posing for science projects by discussing it with a professional scientist; ii) a general "ask-the-expert" site for science and health issues; iii) a reference site containing the detailed experimental protocols for student experiments; and iv) an interactive resource to aid teachers throughout the U.S. to establish contacts with scientists. The goal of this project is to extend the reach of current health science programs that are targeted to females, African-American junior and senior high school students, and elementary school teachers, located in the Washington, D.C., metropolitan area. The project includes laboratory apprenticeships, student mentoring, and an interactive website to help students and teachers establish contact with scientists nationwide.
The Royal Society of Chemistry commissioned TNS BMRB to conduct this research to provide well-grounded, robust data on the public’s relationship with chemistry in the UK. This programme of research aimed to understand where people are now, explore what drives people's views, identify windows of opportunity, and use evidence to produce guidance on opportunities and challenges in communicating chemistry to the public.
As collective impact initiatives blossom around the country, Northern Kentucky provides a case study in handling a dilemma that can spring from that growth: When multiple initiatives develop overlapping missions, members, and audiences, how can you reduce competition and increase impact? Today, Northern Kentucky's education initiatives are aligned through a backbone organization that aims to improve all youth supports, from birth to career.
Using a kind of dynamic film, Latour analyzes three recent moments in the history of science and technology, involving John Whittaker of the Pasteur Institute, Watson and Crick and Tom West of Data General. Text in Portuguese.
Today’s standardized testing methods are too narrow for measuring 21st-century learning that occurs across time and diverse social contexts, from formal to informal and embodied to virtual. This paper uses the concept of “connected learning” to illustrate what 21st-century education involves; it then describes research methods for documenting this learning.
Mobile technology can be used to scaffold inquiry-based learning, enabling learners to work across settings and times, singly or in collaborative groups. It can expand learners’ opportunities to understand the nature of inquiry whilst they engage with the scientific content of a specific inquiry. This Sharples et al. paper reports on the use of the mobile computer-based inquiry toolkit nQuire. Teachers found the tool useful in helping students to make sense of data from varied settings.
Plum Landing (https://pbskids.org/plumlanding/) is produced by WGBH Educational Foundation (http://wgbh.org), the Public Broadcasting Service affiliate based in Boston, MA. The website, Plum Landing, follows the adventures of an animated space alien, named Plum, after her spaceship crash-lands on Earth. With funding from the National Science Foundation, the Corporation for Public Broadcasting, The Kendeda Fund, and the Northern Research Station, Forest Service, U.S. Department of Agriculture. WGBH worked closely with a panel of science advisors to create an “innovative, environmental science
This article explains the concepts of disruptive innovation and catalytic innovation, a subset of disruptive innovation. Disruptive innovations challenge industry incumbents by offering simpler, good-enough alternatives to an underserved group of customers, whereas catalytic innovations can surpass the status quo by providing good-enough solutions to inadequately addressed social problems.
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TEAM MEMBERS:
Clayton ChristensenHeather BaumannRandy RugglesThomas Sadtler
In the paper I argue for a certain way of theorizing and studying learning. Learning is seen as situated in social practice, and in the pursuit of most learning persons are seen as moving around in social practice. They are involved in personal trajectories across various social contexts of practice. Even more so, these social contexts and the links between them, which persons learning draw on in their pursuit of learning, are institutionally arranged in various ways, and this affects the opportunities and nature of learning processes. These arguments about the nature of learning, theories of
Worldwide growth in use of mobile phones has fostered the emergence of mobile learning. Mobile technologies are used both in classrooms to support instruction (safe) and as tools that significantly change instructional activities, learner roles, and learning location (disruptive). Learners become less consumers of information and more collaborators, researchers, and publishers on-the-go (Stead, 2006). Scholarship in m-learning is scarce and lacks rigor (McNeal & van't Hooft, 2006). Even with increasing numbers of investigative studies there are still significant gaps in the literature
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TEAM MEMBERS:
Tiffany KoszalkaG.S. Ntloedibe-Kuswani
This volume explores how technology-supported learning environments can incorporate physical activity and interactive experiences in formal and informal education. It presents cutting-edge research and design work on a new generation of "body-centric" technologies such as wearable body sensors, GPS tracking devices, interactive display surfaces, video game controller devices, and humanlike avatars. Contributors discuss how and why each of these technologies can be used in service of learning within K-12 classrooms and at home, in museums and online. Citing examples of empirical evidence and