But many young people face signifcant economic, cultural, historical, and/or social obstacles that distance them from STEM as a meaningful or viable option— these range from under-resourced schools, race- and gender-based discrimination, to the dominant cultural norms of STEM professions or the historical uses of STEM to oppress or disadvantage socio-economically marginalized communities (Philip and Azevedo 2017). As a result, participation in STEM-organized hobby groups, academic programs, and professions remains low among many racial, ethnic, and gender groups (Dawson 2017). One solution to
In this paper we share an emerging analytical approach to designing and studying STEAM programs that focuses on how programs integrate the respective epistemic practices—the ways in which knowledge is constructed—of science and art. We share the rationale for moving beyond surface features of STEAM programs (e.g., putting textiles and electronics on the same table) to the disciplinary-specific ways in which participants are engaged in creative inquiry and production. We share a brief example from a public STEAM event to demonstrate the ways in which this approach can foster reflection and
This Science Learning+ project will develop a Youth Access & Equity Research & Practice Agenda, focusing on addressing equity issues for youth, ages 11-14, primarily from non-dominant backgrounds. The project will involve researchers and practitioners from three ISL settings/contexts, (1) Designed spaces, e.g., museums; (2) Community-based, e.g., afterschool clubs; and (3) Everyday science, e.g., science media. The goal of the agenda will be to advance scholarly understanding of equity issues in relation to these three contexts. Taking an ecological view of STEM learning as a sociocultural process of participation and transformation, the project will employ a Complex Adaptive System lens to document multiple pathways youth take (or not) within/across ISL settings over time, the impact these pathways have on learning and development, and their influence on ISL organizations themselves. These lenses will help us identify aspects of learning environments which shape youth access and development, and the value and impact of the equity ideas, tools and practices.
From intimate science cafes to massive science festivals, the public science events sector encompasses an enormous diversity of activity involving a wide range of practitioners and target audiences. As unique as each instance of an event can be, public science events are all live, in-person programs designed to engage the public with science in a social context. This activity is already taking place on a grand scale in both the US and UK, and initial evaluations of some of these event forms have begun to demonstrate distinct beneficial impacts. Despite some significant leaps forward, there are several issues that this Science Learning+ project seeks to address: (1) insufficient connectivity and communications between many event organizers; (2) little overall tracking of event activity; (3) few comparative evaluations across different event forms; and (4) lack of shared terminology, key facts, and a coherent narrative for the role live events play in the science learning ecosystem. A landscape study, organized into a single document and simple website, is the main deliverable. This will summarize existing activity and findings related to events, and provide an overview of potentially fruitful areas for future investigation.