When everybody engaging in STEM is expected to adhere to dominant cultural norms established by the populations that have historically participated in and institutionalized STEM—that is, male, white, western, and privileged, some may feel like outsiders, even though others will find them familiar and comfortable. This can shape perceptions about who has expertise and/or belongs in STEM fields. STEM programs and science representations must encourage and support participation by leveraging audiences' personal experiences and cultural practices.
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Science communicators and educators need strategies to account for the differences in ways that learners build on prior knowledge and experiences, and position these differences as strengths, rather than as weaknesses. Science communicators and STEM educators can more effectively engage their audiences by applying asset-based approaches in their activities and strategies.
About this resource:
This is a practice brief produced by CAISE's Broadening Participation in STEM Task Force to help informal STEM education (ISE) and science communication groups reflect on and strengthen their
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Raychelle BurksSunshine MenezesCenter for Advancement of Informal Science Education (CAISE)
Learning is a lifelong, life-wide, and life-deep process. Narrow definitions of learning as consisting only of conceptual knowledge can limit how we engage people with and in STEM. Science communicators and educators can design opportunities to build on prior knowledge to help people make sense of new ideas and experiences in ways that can guide decision-making as well as future choices.
About this resource:
This is a practice brief produced by CAISE's Broadening Participation in STEM Task Force to help informal STEM education (ISE) and science communication groups reflect on and
Though many communities are now undertaking collective efforts to transform who participates in science, technology, engineering, and math (STEM), the informal science education and science communication sectors are largely peripheral to these initiatives.
A task force assembled by the Center for the Advancement of Informal STEM Education (CAISE) spent 18 months examining how the public engagement with STEM sector typically presents and represents STEM, and deliberated on whether or not it does so in truly inclusive ways that can contribute to efforts to broaden participation. In this
Informal STEM education (ISE) organizations, especially museums, have used evaluation productively but unevenly. We argue that advancing evaluation in ISE requires that evaluation capacity building (ECB) broadens to include not only professional evaluators but also other professionals such as educators, exhibit developers, activity facilitators, and institutional leaders. We identify four categories of evaluation capacity: evaluation skill and knowledge, use of evaluation, organizational systems related to conducting or integrating evaluation, and values related to evaluation. We studied a
We define "informal STEM education" and explain some of the reasons its outcomes are so inherently challenging to evaluate, including the critical need for ecological validity and the fact that many informal learning experiences are low-visibility and opportunistic. We go on to highlight significant advances in the field, starting with the fundamental embracing of learning outcomes that go well beyond narrow measures of knowledge and skills, to include interest, engagement, and identity-building. Within that framework, we note the development of shared constructs and shared instruments
In informal STEM education, thinking about engagement has evolved from a focus on innovative ways of attracting the initial attention of science center/museum visitors or media consumers to strategies for designing environments and activities that foster deeper experiences such as experimentation, skill development, and contemplation in a variety of settings. In the science communication field, engagement increasingly refers to “two-way” approaches to designing and facilitating interactions between STEM professionals and diverse “publics” that take into account the knowledge and prior
The landmark 2009 National Research Council consensus report Learning Science in Informal Environments, posited that learners in informal environments “experience excitement, interest, and motivation to learn about phenomena in the natural and physical world” as one of six strands of informal science learning. In 2016, the American Association for the Advancement of Science (AAAS) Center for Public Engagement with Science and Technology identified “increased interest and motivation” around STEM topics as a short-term, measurable outcome of science engagement activities. For many professionals
In everyday language, one might define “identity” as the way that people answer questions such as: “Who do I think I am, or who can I be, where do I belong, and how do I think other people see me?” The concept of identity has become an increasingly important factor in the study of informal science, technology, engineering, and math (STEM) education and science communication. And a growing number of designers name an enhanced science or STEM identity as an intended outcome for participants in their activities and programs.
In 2017, the CAISE Evaluation and Measurement Task Force asked a
The Collaboration for Ongoing Visitor Experience Studies (COVES) aims to help science centers gather and share data to better understand visitors’ experiences. For the summative evaluation of COVES, the Museum of Science’s Research and Evaluation Department studied the program’s impacts on participating museums and museum professionals. Specifically, this evaluation was designed to:
Examine participants’ overall satisfaction with the collaboration and their likelihood to recommend it to others;
Understand the impact that COVES is having on Participating Institutions;
Assess whether
The National Federation of the Blind (NFB), in partnership with scholars from Utah State University and educators from the Science Museum of Minnesota (SMM), has developed the Spatial Ability and Blind Engineering Research (SABER) project to assess and improve the spatial ability of blind teens in order to broaden the participation of blind students in STEM fields.
Activities began this summer (2018) with a week-long, residential engineering design program for thirty blind high school students at NFB headquarters in Baltimore. The evaluation focused on perceptions of process and measures of
This poster was presented at the 2019 AISL PI Meeting in Washington, DC. It provides an overview of a project designed to broaden participation of blind students in engineering fields through the development of spatial ability skills and the showcasing of nonvisually accessible teaching methods and techniques.