Refine Your Search

Resource Type

Learning Environment

Displaying Results 11 - 20 of 8930
  • Date: 05/17/2022
    Resource Category: Conference Proceedings
    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 ... »
  • Date: 05/10/2022
    Resource Category: Research and Evaluation Instruments
    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 ... »
  • Date: 05/09/2022
    Resource Category: Formative
    The Museum of Science in Boston, Massachusetts is one of the world’s largest science centers and the most visited cultural institution in New England. Located in Science Park, a piece of land that spans the Charles River, the museum is conveniently situated close to Boston and Cambridge. The museum has more than 700 interactive exhibits and a ... »
  • Date: 05/01/2022
    Resource Category: Formative
    Through the T523: Formative Evaluation for Educational Product Development course, our team conducted a semester-long formative evaluation for the Museum of Science, Boston (MoS) Gaia Exhibit. The Gaia Exhibit (Gaia) is a new, temporary art installation located in the MoS’s Blue Wing exhibition hall. Gaia that strives to inspire appreciation for ... »
  • Date: 04/28/2022
    Resource Category: Peer-reviewed article
    Environmental educators have used guided-inquiry in natural and supportive learning environments for decades, but comparatively little programming and research has focused on experiences in urban environments, including in constructed ecosystems like green roofs, or impacts on older youth and adults. To address this gap, we designed a tiered, near ... »
  • Date: 04/25/2022
    Resource Category: Peer-reviewed article
    Many youth programs seek to understand their influence over time on participant outcomes. This paper offers a methodology for measuring a participant’s perception of a program’s contribution amid their perception of other youth influences such as those from family, school, peer groups, hobbies, and other organized activities. The instrument built ... »
  • Date: 04/02/2022
    Resource Category: Conference Proceedings
    In collaboration with Metropolitan Family Service (MFS), we conducted a three-year design-based research study to better understand how the characteristics of hands-on, home-based family engineering activities influence how preschool-age children and their parents engage in the engineering design process. Four themes emerged from the study: (1) ... »
  • Date: 04/01/2022
    Resource Category: Report
    In collaboration with the Association of Science-Technology Centers (ASTC), Association of Children’s Museums (ACM) and Immersive Learning Research Network (iLRN), and with support from the National Science Foundation, the Institute for Learning Innovation will virtually bring together 4-5 dozen diverse (expertise and role, background, ... »
  • Date: 03/30/2022
    Resource Category: Conference Proceedings
    Interest is a critical motivating factor shaping how children engage with STEM inside and outside of school and across their lives. In this paper, we introduce the concept of interest catalyst that emerged from longitudinal research with preschool-age children and their families as critical to the process through which each family developed unique ... »
  • Date: 03/28/2022
    Resource Category: Peer-reviewed article
    In this paper, we report ethnicity trends in student participation and experience in high school science and engineering fair (SEFs). SEF participation showed significant ethnic diversity. For survey students, the approximate distribution was Asian-32%; Black-11%; Hispanic-20%; White-33%; Other-3%. Comparing the SEF level at which students ... »

Pages