The National Network for Ocean and Climate Change Interpretation [NNOCCI] is a Community of Practice [CoP] dedicated to advancing the conversation on climate change, based on the principle that wide-scale training with proven communication techniques can change the national discourse around climate change to be more productive, creative, and solutions-focused.
NNOCCI CoP is a network of individuals and organizations in formal and informal education, the social sciences, climate sciences, and public policy. By 2018, the community represented more than 184 institutions in 38 states, and over
This chapter brings together cultural-historical approaches to human development with interpretive and multi-sited ethnography in order to: (1) develop ethnographic tools that attend to the ways young people learn within and across multiple contexts; (2) draw from and contrast the methodological insights of single and multi-sited ethnography; and (3) glean principles that help constitute a “multi-sited sensibility” appropriate for taking a more expansive approach to learning that advances conceptions of learning as movement.
Advances in technology, science, and learning sciences research over the past 100 years have reshaped science education. This chapter focuses on how investigators from varied fields of inquiry who initially worked separately began to interact, eventually formed partnerships, and recently integrated their perspectives to strengthen science education. Advances depended on the broadening of the participants in science education research, starting with psychologists, science discipline experts, and science educators; adding science teachers, psychometricians, computer scientists, and sociologists
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TEAM MEMBERS:
Marcia LinnLibby GerardCamillia MatukKevin Mcelhaney
In recent years, transmedia has come into the spotlight among those creating and using media and technology for children. We believe that transmedia has the potential to be a valuable tool for expanded learning that addresses some of the challenges facing children growing up in the digital age. Produced by the USC Annenberg Innovation Lab and the Joan Ganz Cooney Center, this paper provides a much-needed guidebook to transmedia in the lives of children age 5-11 and its applications to storytelling, play, and learning. Building off of a review of the existing popular and scholarly literature
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TEAM MEMBERS:
Becky Herr-StephensonMeryl AlperErin Reilly
The poster shares work conducted as part of the Modeling Zoos and Aquariums as Inclusive Communities of Science for Autistic Individuals (MoZAICS) project and specifically sharing details of the MoZAICS access and inclusion framework (e.g., definitions, structure/levels of the framework).
The COVID-19 pandemic tested many fundamental connections between science and society. A growing field working to strengthen those connections exists within the informal STEM learning (ISL) community which provides diverse learning and engagement environments outside the formal classroom. One of the largest funders of ISL initiatives is the National Science Foundation (NSF) which runs the Advanced Informal STEM Learning (AISL) program in the United States. The AISL program supports initiatives through six categories that include pilots and feasibility studies, research in service to practice
Children’s and parents’ spatial language use (e.g., talk about shapes, sizes and locations) supports children’s spatial skill development. Families use spatial language during playful construction activities. Spatial language use varies with construction activity design characteristics, such as the activity’s play goals. What is the connection between the building materials used and the spatial conversations families have during a construction activity?
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TEAM MEMBERS:
Evan VlahandreasClaire MasonNaomi PolinskyDavid UttalCatherine Haden
Hands-on tinkering experiences can help promote more equitable STEM learning opportunities for children from diverse backgrounds (Bevan, 2017; Vossoughi & Bevan, 2014). Latine heritage families naturally engage in and talk about engineering practices during and after tinkering in a children’s museum (Acosta & Haden, in press). We asked how the everyday practice of oral stories and storytelling could be leveraged during an athome tinkering activity to support children’s informal engineering and spatial learning.
Informal educational activities, such as tinkering, can be beneficial for children’s engineering learning (Bevan, 2017; Sobel & Jipson, 2016). Storytelling can help children organize and make meaning of their experiences (Brown et al., 2014; Bruner, 1996), thereby supporting learning. Digital storytelling, in which narratives and reflections are combined with photos and videos in order to be shared with an audience, has become a familiar, enjoyable activity for many children (Robin, 2008). We examine whether digital storytelling activities during tinkering and reflection will be related to
Informal educational activities, such as tinkering, can be beneficial for children’s engineering learning (Bevan, 2017; Sobel & Jipson, 2016). Storytelling can help children organize and make meaning of their experiences (Brown et al., 2014; Bruner, 1996), thereby supporting learning. We examine whether digital storytelling activities during tinkering and reflection will be related to more engineering talk.We also explore whether children with previous digital storytelling experience will produce higher quality narratives than children without.
This report shares the results of a year-long study of the impact of IMLS grants (1998-2003) though programs that served youth aged 9-19. Nearly 400 museum and library programs were surveyed about their goals, strategies, content, audience, and structure, as well as about their impact, effectiveness, and outcomes.
How to determine a sample size for studying your informal learning program
What’s important to consider when selecting a sample size, or participant group size, for studying your informal (science) education program? What value does a small sample size have? If program managers have ample resources for collecting a lot of data, what factors are important to consider?
Here is a collection of guidelines and examples for use in making an informed decision about determining the sample size for studying your informal learning program. To design a study whose findings are more authentic