The 5-year longitudinal study on Iridescent's Family Science Learning model was conducted with 2,173 participants from 9 schools and museum sites in Los Angeles and New York City. Participants were underserved elementary school students and their parents. Families met once a week for 5 weeks in a row. Five families (~20 participants) came for all 5 years.
Each program implementation was coordinated by Iridescent team members. The goal of this study was to:
* To identify scalable methods of engaging underserved audiences in STEM.
* To identify sustainable methods of supporting long-term
In order to improve science, technology, mathematics, and engineering (STEM) learning, it is crucial to better understand the informal experiences that young children have that prepare them for formal science education. Young children are naturally curious about the world around them, and research in developmental psychology shows that families often support children in exploring and seeking explanations for scientific phenomena. It is less clear how to link children's natural curiosity and everyday parent-child interaction with more formal STEM learning. This collaborative project will team researchers from the University of California, Santa Cruz, the University of Texas, and Brown University with informal learning practitioners at the Children's Discovery Museum, The Thinkery, and the Providence Children's Museum in order to investigate how family interaction relates to children's causal learning, as well as how modifications to museum exhibit design and facilitation by museum staff influence families' styles of interaction and increase children's causal learning. This project is funded by the Research on Education and Learning (REAL) program which supports fundamental research by investigators from a range of disciplines in order to deepen what is known about STEM learning.
The project team will examine how ethnically and linguistically diverse samples of parents and children engage in collaborative scientific learning in three children's museums across the U.S. The research will combine observational studies of parent-child interaction in a real-world setting with experimental measures of children's causal learning. The investigators will examine how children explore and derive explanations for museum exhibits about mechanical gear function and fluid dynamics. In this way, the researchers will investigate the relation between styles of parent-child interaction and children's causal learning. The team will also investigate novel ways of presenting material within the exhibits to facilitate exploration and explanation. They will explore how signage, conversations with museum staff, parents' attitudes towards learning in museum settings, and parents' own prior knowledge about the exhibits can influence the parent-child interaction and subsequent causal learning. The project will advance the basic research goal of advancing what is known about what affects children's science content learning. It will also advance the practice-oriented goal of developing new strategies for the design of science museum exhibits and make recommendations for how parents can better talk to their children about scientific phenomena.
Purpose: This project will develop and test Kiko's Thinking Time, a series of game apps designed to strengthen children's cognitive skills related to executive functioning and reasoning. A principle objective of preschool is to prepare children for later success in school. Most programs focus on activities to support children's social and emotional development, and to strengthen pre-reading and mathematics competencies. Fewer programs explicitly focus on fostering children's executive function and reasoning skills—even though research in the cognitive sciences demonstrates these skills also provide a foundation for school-readiness.
Project Activities: During Phase I (completed in 2014), the team developed six prototype games and a teacher portal to track student progress. At the end of Phase I, results from a pilot study with 55 kindergarten students and 5 teachers demonstrated that the games operated as intended. Results indicated that students were engaged based on duration of game play, and that teachers were able to review game data for each child. In Phase II, the team will develop 15 more games and will further refine and enhance the functionality of the teacher portal. After development is complete, a pilot study will assess the feasibility and usability, fidelity of implementation, and the promise of the games for promoting students' executive functioning and reasoning. The researchers will collect data from 200 students in 10 preschool classrooms over 2 months. Half of the students in each class will be randomly assigned to use Kiko's Thinking Time while the other half will play an art-focused gaming app. Analyses will compare pre-and-post scores on measures of student's executive functioning and reasoning.
Product: Kiko's Thinking Time will be an app with 25 games, each based on tasks shown to have cognitive benefits in lab research. Each game will be designed to isolate and train skills related to executive functioning, such as: working memory, reasoning, inhibition, selective attention, cognitive flexibility, and spatial skills. Game play will be self-guided and adaptive, as the software will adjust in difficulty based on student responses. The app will work on tablets, smartphones, as well desktops. In addition, a companion website will allow teachers to track student performance and to obtain educational material around executive function and cognitive development.
In late 2012, Providence Children’s Museum began a major three-year research project in collaboration with The Causality and Mind Lab at Brown University, funded by a grant from the National Science Foundation (1223777). Researchers at Brown examined how children develop scientific thinking skills and understand their own learning processes. The Museum examined what caregivers and informal educators understand about learning through play in its exhibits and how to support children’s metacognition – the ability to notice and reflect on their own thinking – and adults’ awareness and appreciation of kids’ thinking and learning through play. Drawing from fields like developmental psychology, informal education and museum visitor studies, the Museum’s exhibits team looked for indicators of children’s learning through play and interviewed parents and caregivers about what they noticed children doing in the exhibits, asking them to reflect on their children’s thinking. Based on the findings, the research team developed and tested new tools and activities to encourage caregivers to notice and appreciate the learning that takes place through play.
To support learning across settings, educators need to develop ways to elicit student interests and prior experiences. McClain and Zimmerman describe how, during outdoor walks at a nature center, families talked about prior experiences with nature, which were mostly from non-school settings. They used the prior experiences to remind, prompt, explain to, and orient one another during shared meaning-making activity.
Flying Higher will develop a permanent hands-on exhibit that conveys the fundamentals of flight, technology, materials science, and NASA’s role in aeronautics for learners ages 3-12 years and their parents/caregivers and teachers. The exhibit, public programs, school and teacher programs, and teacher professional development will develop a pipeline of skilled workers to support community workforce needs and communicate NASA’s contributions to the nation and world. An innovative partnership with Claflin University (an historically black college) and Columbia College (a women’s liberal arts college) will provide undergraduate coursework in informal science education to support pre-service learning opportunities and paid employment for students seeking careers in education and/or STEM fields. The projects goals are:
1) To educate multi-generational family audiences about the principles and the future of aeronautics; provide hands-on, accessible, and immersive opportunities to explore state-of-the-art NASA technology; and demonstrate the cultural impact of flight in our global community.
2) To provide educational standards-based programming to teachers and students in grades K–8 on NASA-driven research topics, giving the students opportunities to explore these topics and gain exposure to science careers at NASA; and to offer teachers support in presenting STEM topics.
3) To create and implement a professional development program to engage pre-service teachers in presenting museum-based programs focused on aeronautics and engineering. This program will provide undergraduate degree credits, service learning, and paid employment to students that supports STEM instruction in the classroom, explores the benefits of informal science education, and encourages post-graduate opportunities in STEM fields.
Our Sky is a series of Out-of-School Time and museum educational programs that inspire an appreciation and understanding of Earth and Space Science (ESS) in a diverse population of children ages 3-10 and their parents, caregivers and educators. All resources are developed through a partnership between Boston Children’s Museum and Smithsonian Astrophysical Observatory in Boston and Cambridge, Massachusetts. The vision for Our Sky is that children ages 3-10 and their adult caregivers will gain an appreciation for celestial objects and phenomena as a foundation for understanding of Earth and Space Science. All resources and activities will be designed to realize this vision, and to:
Serve a diverse range of audiences, with an emphasis on urban and low-income children and families;
Increase appreciation among diverse adults and children of the sky as an accessible science learning resource;
Share NASA resources with, and help develop foundational STEM skills in children;
Encourage adults to engage in and guide ESS learning experiences with children;
Inspire practical application of STEM skills by children and adults as they explore celestial objects together; and
Expand the capacity of museum staff and afterschool educators to engage families in learning STEM skills through ESS exploration.
Our Sky activities will result in:
A series of museum-based programs that incorporate NASA resources and ESS activities across a range of content areas; and
A series of new ESS-focused activities for the award-winning “Beyond the Chalkboard” afterschool curriculum that include NASA resources and will reach hundreds of thousands of children around the world.
Pacific Science Center will expand its Science, Technology, Engineering and Math—Out-of-School Time (STEM-OST) model to new venues in the Puget Sound region to improve science literacy and increase interest in STEM careers for youth. STEM-OST brings hands-on lessons and activities in physics, engineering, astronomy, mathematics, geology, and health to elementary and middle school children in underserved communities throughout the summer months. The center will modify lessons and activities to serve students in grades K-2, align the curriculum with the Next Generation Science Standards, and increase the number of Family Science Days and Family Science Workshops offered to enhance parent involvement in STEM learning. The program will employ a tiered mentoring approach with outreach educators, teens, and education volunteers to increase interest in STEM content and provide direct links between STEM and workforce preparedness.
As part of a grant from the National Science Foundation, the National Federation of the Blind (NFB) is conducting regional STEM workshops in partnership with local science museums, entitled NFB STEM2U, for blind youth [youth], grades 3 – 6 and 9-12. During this second regional workshop in Boston, the NFB operated two different programs simultaneously: one program for youth, and a second program for their parents/caregivers. A third program, for Boston Museum of Science staff, was conducted earlier to prepare the museum staff to assist with the youth program. A separate report will discuss the
As part of a grant from the National Science Foundation, the National Federation of the Blind (NFB) is conducting regional STEM workshops in partnership with local science museums, entitled NFB STEM2U, for blind youth [youth], grades 3 – 6 and 9-12. During the third regional workshop in Columbus, Ohio, the NFB operated two different programs simultaneously: one program for youth, and a second program for their parents/caregivers. A third program, for COSI (science center) staff, was conducted earlier to prepare the museum staff to assist with the youth program. A separate report will discuss
The overall purpose of the Kinetic City (KC) Empower project was to examine how informal science activities can be made accessible for students with disabilities. The premise of this project was that all students, including those with disabilities, are interested in and capable of engaging in science learning experiences, if these experiences are accessible to them. Drawing on resources from Kinetic City, a large collection of science experiments, games, and projects developed by the American Association for the Advancement of Science (AAAS), the project researched and adapted five after
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TEAM MEMBERS:
Bob HirshonLaureen SummersBabette MoellerWendy Martin
This full scale research and development collaborative project between Smith College and Springfield Technical Community College improves technical literacy for children in the area of engineering education through the Through My Window learning environment. The instructional design of the learning environment results from the application of innovative educational approaches based on research in the learning sciences—Egan's Imaginative Education (IE) and Knowledge Building (KB). The project provides idea-centered engineering curriculum that facilitates deep learning of engineering concepts through the use of developmentally appropriate narrative and interactive multimedia via interactive forums and blogs, young adult novels (audio and text with English and Spanish versions), eight extensive tie-in activities, an offline teachers’ curriculum guide, and social network connections and electronic portfolios. Targeting traditionally underrepresented groups in engineering—especially girls—the overarching goals of the project are improving attitudes toward engineering; providing a deeper understanding of what engineering is about; supporting the development of specific engineering skills; and increasing interest in engineering careers. The project will address the following research questions: What is the quality of the knowledge building discourse? Does it get better over time? Will students, given the opportunity, extend the discourse to new areas? What scaffolding does the learning environment need to support novice participants in this discourse? Does the use of narrative influence participation in knowledge building? Are certain types of narratives more effective in influencing participation in knowledge building? Evaluative feedback for usability, value effectiveness, and ease of implementation from informal educators and leaders from the Connecticut After School Network CTASN) will be included. The evaluation will include documentation on the impact of narrative and multimedia tools in the area of engineering education. Currently, there is very little research regarding children and young teen engagement in engineering education activities using narrative as a structure to facilitate learning engineering concepts and principles. The research and activities developed from this proposed project contributes to the field of Informal Science and Engineering Education. The results from this project could impact upper elementary and middle-school aged children and members from underrepresented communities and girls in a positive way.