Previous research has identified parental involvement—the ways parents and other caring adults interact with children in and outside of the home, and the kinds of learning materials with which parents surround children—as key to helping children develop knowledge and skills in literacy and math (Bassok, Finch, Lee, Reardon, & Waldfogel, 2016; Burgess, Hecht, & Lonigan, 2002; Niklas, Nguyen, Cloney, Tayler, & Adams, 2016; Sénéchal & LeFevre, 2002; Skwarchuk, Sowinski, & LeFevre, 2014). Parental support may be critical to children’s developing knowledge and understanding in science as well.
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TEAM MEMBERS:
Megan SilanderTodd GrindalNaomi HupertElisa GarciaKea AndersonPhilip VaheyShelley Pasnik
Integrating Science Into Afterschool: A Three-Dimensional Approach To Engaging Underserved Populations In Science, or STEM 3D, was a five year project led by The Franklin Institute. The project was created with three major goals: to (1) increase youth engagement in hands-on, inquiry based, science projects; (2) cultivate intergenerational/parental support for science learning; and (3) evaluate the effectiveness of this 3-D (afterschool, home, and community) approach in engaging children, families, afterschool facilitators, and community-based organizations in science learning and the promotion
This poster was presented at the 2018 Campus Office of Undergraduate Research Initiatives (COURI) Symposium in El Paso, TX. It describes an ethnographic study into the use of storytelling in science teaching.
This poster was presented at the 2018 Campus Office of Undergraduate Research Initiatives (COURI) Symposium in El Paso, TX. It describes challenges and lessons learned regarding the use of cogenerative dialogues (cogens) in the context of a project-based learning environment.
This poster was presented at the 2018 Campus Office of Undergraduate Research Initiatives (COURI) Symposium in El Paso, TX. It describes an ethnographic study to investigate how an exemplary scientist engaged high school students with humor during a project-based learning science internship.
This poster was presented at the 2018 Campus Office of Undergraduate Research Initiatives (COURI) Symposium in El Paso, TX. It discusses the difficulty faced by high school students in generating project ideas, and seeks to identify different activities and methods that instructors use to facilitate the development of project ideas in a project-based learning internship environment.
This poster was presented at the annual meeting of the National Association for Research in Science Teaching (NARST) in Atlanta, GA. It discusses how cogenerative dialogues (cogens) might serve as a tool to dissolve emotional breakdowns in a project-based learning (PBL) science internship.
The overarching goal of the Students Discover project is to improve STEM education in middle schools by developing a model for engaging students with real science. Over the past three years, the project has brought together teachers, scientists, district leaders, and other institutional partners to facilitate the successful implementation of citizen science projects in the classroom. Project activities aim to create a context for student engagement with real, ongoing scientific research by making citizen science projects accessible to the formal classroom environment. Citizen science lessons
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TEAM MEMBERS:
Suzanne BranonSherry Booth FreemanLauren BryantLaTricia TownsendMalinda Faber
Data are the workhorses of the scientific endeavor and their use is rapidly evolving (Haendel, Vasilevsky, and Wirz 2012). Ask almost any scientist about their work, and the conversation will involve the data they collect and analyze. The use of data in science is often captured in science classrooms as an ill-defined link between math and science that may not reflect authentic data practices (Tanis Ozcelik and McDonald 2013). Students often find themselves collecting data to confirm obvious conclusions within highly structured labs, and data become a way for students to demonstrate the
Please join us in celebrating Citizen Science Day, which falls this year on Saturday, April 14th. This issue of Connected Science Learning is dedicated to highlighting effective citizen science programs that involve classroom students in collecting data for research scientists, while also engaging them in key STEM (science, technology, engineering, and math) content and practices. Students get a “front row seat” to what scientists do and how scientists work, plus develop the reasoning skills and practices used by scientists.
With support from the National Science Foundation (NSF), SciStarter 2.0 was launched to enhance, diversify, and validate participant engagement in scientific research in need of the public’s help. SciStarter’s leadership is part of the National Academy of Sciences’ Committee, Designing Citizen Science to Support Science Learning, which is developing guidelines and a research agenda for citizen science in education. This article briefly introduces educators to SciStarter 2.0.
California Academy of Sciences contracted with Wendy Meluch of VisitorStudies.com to design and conduct an evaluation of the Habitat Earth planetarium show (HE) during winter/spring 2017. HE is a 30-minute show which features a pre-recorded movie-like section, and a live presentation. HE team members’ primary interests were to assess cognitive, affective and behavioral impacts of the show on audience members, and understand the roles and relative strengths of the live and pre-recorded segments of the program in manifesting those impacts. Findings of this study will inform development of the