This workshop is funded through the "Dear Colleague Letter: Principles for the Design of Digital Science, Technology, Engineering, and Mathematics (STEM) Learning Environments (NSF 18-017)." In today's educational climate, organizations are creating physical learning spaces for hands-on STEM activities, often called makerspaces, co-working spaces, innovation labs, or fablabs. These spaces have evolved to be interdisciplinary centers that personalize learning for individual, diverse learners in collaborative settings. When designed well, these physical spaces create communities that contextualize learning around participants' goals and thus address STEM learning in a dynamic and integrated way. Participation in these learning environments encourages the cultivation of STEM identities for young people and can positively direct their career trajectories into STEM fields. This workshop will bring together a community of collaborators from multiple stakeholder groups including academia, public libraries, museums, community based organizations, non-profits, media makers and distribution channels, and educators within and beyond K-12 schools. Led by the University of Arizona, and held at Biosphere 2, an international research facility, participants will engage in activities that invite experimentation with distributed learning technologies to examine ways to adapt learning to the changing technological landscape and create robust, dynamic online learning environments. The workshop will culminate in a synthesis of design principles, assessment approaches, and tools that will be shared widely. Partnerships arising from the workshop will pave the way for sustained efforts in this area that span research and practice communities. Outcomes will address research and development of the next generation of digitally distributed learning environments.
The three day workshop convening will provide a unique forum to (1) exchange innovative ideas and share challenges and opportunities, (2) connect practical and research-based expertise and (3) form cross-institutional and cross-community partnerships that envision, propose, and implement opportunities for collecting and analyzing data to systematically inform the collective understanding. Participation-based activities will include design-based experiences, participatory activities, demonstrations of works in progress, prototyping, creative pitching, practitioner lightning talks, small group breakouts, hands-on design activities, and an 'unconference' style synthesis of bold ideas. Participants will be invited to experiment with distributed learning technologies. Five focus areas for the workshop include (1) inclusivity of learning spaces that invite multiple perspectives and full participation, (2) documenting learning in ways that are linked to outcomes and impacts for all learners, (3) implementing the use of new technologies in diverse settings, such as the workforce, (4) interpersonal interactions and peer-to-peer learning that may encourage a STEM career-path, and, (5) methods for collecting and analyzing data at the intersection of people, the learning environment, and new technologies at multiple levels. Outcomes of the workshop will serve to advance knowledge regarding critical gaps and opportunities and identify and characterize models of collaboration, networking, and innovation that operate within and across studio-based STEM learning environments.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
This study researched whether and how affiliation with the Nanoscale Informal Science Education Network (NISE Net) led to change in informal science education organizations’ (ISEs) practices. The NISE Net provided an opportunity to look at how participation in a large but loosely-structured network of museums, science centers, educators, and scientists can influence museums to experience organizational change and adopt new practices.
By conducting qualitative case studies of a few selected partners, this research aimed to understand the conditions that facilitate or impede the influence of
As a part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds research and innovative resources for use in a variety of settings. This Broad Implementation project would scale up the CryptoClub Project, an afterschool and online program designed to engage middle school youth in mathematics and cryptography. The project builds on previous successful work and evaluation that is ready for scale up using a train-the-trainer model implemented through a partnership with the National Girls Collaborative. The project will train 160 new CryptoClub leaders who will then train 800 new leaders at 20 hub sites reaching 9600 students. In addition, professional development modules and webinars will continue to refresh leader skills. Other project components include an online multiplayer cryptography game, weekly challenges through social media, and digital cryptology badges for students.
The research uses a think-aloud method with students as they actually attempt to solve the cryptology problems using mathematical thinking. Three think-aloud studies will be performed during the Project. The research team will code transcripts of the interviews for evidence of the mathematical thinking intended to be addressed by each activity, as well as capturing unexpected kinds of thinking. Tasks will also be rated according to the type of knowledge elicited. A written report will include statistical analyses of the think-aloud and interview responses, interpreted in light of the overall CryptoClub goals. The findings will contribute to both future research efforts and practice. The evaluation by EDC uses a quasi-experimental design, which assesses project outcomes for trainers, leaders, students, and Internet users. EDC will also investigate the fidelity to the CryptoClub model as it is scaled up. These studies have strong potential for informing numerous other projects that are at a stage where scale up is under consideration.
At the end of the NISE Network’s 10th year, the Evaluation workgroup created a reflection document to describe how we managed the evaluation of the NISE Network, one of the largest informal education networks ever formed. This document goes into specifics of how we set up our team, what impacts we decided to measure, and what methods we used to collect data on a national scale. It also talks about ethical considerations we took into account and how we shared our work with multiple audiences. This reflection document is not meant to be a prescriptive "how-to" manual, but an example of one
The purpose of this report is to summarize the findings from the Years 6-10 (2010-2015) Nanoscale Informal Science Education Network (NISE Net) summative evaluation studies and to discuss factors that contributed to the achievement of NISE Net’s goals. The report centers on summative evaluation findings, while also including major project output data and corroborating findings from the Years 6-10 NISE Net research studies. By synthesizing findings across studies, this summary evaluation report provides a high-level description of the cross-cutting and integrated knowledge generation efforts
The Summative Study of the Nano Mini-exhibition took place during the spring and summer of 2012. After being observed during their Mini-exhibition experience, 455 visitors across six different partner institutions participated in surveys and interviews with NISE Net evaluation team members. This report begins by describing the key findings of the study in detail, with additional information about study methods, instruments, and two exploratory sub-studies found in the Appendices.
Today institutional and project leaders are faced with two critical dilemmas: (1) building the capacity to respond to the increasing evaluation and accountability demands of funders and stakeholders; and (2) managing the complexities of interconnected, multifaceted, ongoing institutional and cross-institutional work. These challenges require leaders to go beyond traditional approaches to professional development and consider the complex ways that systems of professionals communicate, interact, and evolve. This report draws from three years of research as part of the National Science Foundation
The Complex Adaptive Systems as a Model for Network Evaluations (CASNET) study was a four-year research project investigating evaluation capacity building (ECB) within a network using a complexity theory lens. The study used a case study approach to examine and understand evaluation capacity building within the Nanoscale Informal Science Education Network (NISE Net). NISE Net is a national community of researchers and informal science educators dedicated to fostering public awareness, engagement, and understanding of nanoscale science, engineering, and technology. Instituted in 2005 through NSF funding (DRL-0532536 and 0940143), NISE Net has continuously expanded and is currently comprised of close to 600 science museum and university partners. The intent of the CASNET project was to provide insights on (1) the implications of complexity theory for promoting widespread and systemic use of evaluation within a network, and (2) complex system conditions that foster or impede ECB within a network, i.e., in this case, within the NISE Net.
Produced by Twin Cities Public Television, St. Paul, MN, DragonflyTV (DFTV) is a weekly television series of half-hour live action shows for 8-12 year olds, distributed by PBS Plus. DFTV features real children engaged in real inquiry-based investigations in and around science centers across America. Six 2009 episodes of DFTV focus on the world of nanoscale science and technology. DFTV Nano highlights science centers and university research labs while applying the DFTV “Real Kids … Real Science” model to communicate basic concepts and the scientific process in nanoscience. The themes of the
This article presents some of the challenges faced in developing an interactive exhibit on nanoscience and nanotechnology in Brazil. Presenting a scientific-technological area which is still in formation and which is little known by the population leads to a (re)consideration of the role of museums and science centers in the conformation and consolidation of scientific practice itself. Museographically, the exhibit deals with the challenge of making matter visible in an expression which is distant from the human perception. Some reflections are presented here on the option of musealization
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TEAM MEMBERS:
Sandra MurrielloDjana ContierMarcelo Knobel
The Nanoscale Informal Science Education Network (NISE Network) is a national infrastructure that links science museums and other informal science education organizations with nanoscale science and engineering research organizations. The Network’s overall goal is to foster public awareness, engagement, and understanding of nanoscale science, engineering, and technology. As part of the front-end effort, this report, Part IIB, documents 19 nanoscale STEM programming, media, and school-based projects that have been completed or are in development as of 2005.
The Nanoscale Informal Science Education Network (NISE Network) is a national infrastructure that links science museums and other informal science education organizations with nanoscale science and engineering research organizations. The Network’s overall goal is to foster public awareness, engagement, and understanding of nanoscale science, engineering, and technology. As part of the front-end effort, this report, Part IIA, documents 11 nanoscale STEM exhibits that have been completed or are in development as of 2005.