Today’s standardized testing methods are too narrow for measuring 21st-century learning that occurs across time and diverse social contexts, from formal to informal and embodied to virtual. This paper uses the concept of “connected learning” to illustrate what 21st-century education involves; it then describes research methods for documenting this learning.
Researchers Maltese, Melki, and Wiebke investigated when lasting interest in STEM is sparked and how it is maintained by comparing the remembrances of adults who did and did not persist in STEM. Both groups said that they became interested in STEM early, usually by Grade 6. Those who persisted in STEM were more likely than those who did not to say that they had always been interested in STEM. Parents and teachers were early influences for those who stayed in STEM fields.
Feinstein and Meshoulam’s study examines the nature of equity work in museums and science centres across the U.S. Based on 32 interviews with leaders from 15 informal science education organisations, the authors identified two different perspectives, client and cooperative, each with its own strengths and implications for informal science education.
To improve science education for culturally and linguistically diverse students, schools and communities can create “mutual benefit partnerships” to identify and address local problems. Through the example of the Chicago River Project, Bouillion and Gomez illustrate how such partnerships can connect formal learning contexts with the rich ways communities experience science outside of school.
Mobile technology can be used to scaffold inquiry-based learning, enabling learners to work across settings and times, singly or in collaborative groups. It can expand learners’ opportunities to understand the nature of inquiry whilst they engage with the scientific content of a specific inquiry. This Sharples et al. paper reports on the use of the mobile computer-based inquiry toolkit nQuire. Teachers found the tool useful in helping students to make sense of data from varied settings.
One challenge in scaling up effective educational programs is how to adjust implementation to local contexts. One solution that the authors Penuel, Fishman, Cheng, and Sabelli propose is “design-based implementation research,” (DBIR) in which researchers and practitioners collaboratively identify problems and strategies during implementation while learning from this process to support innovations in new contexts.
This pilot study was funded by the Museum of Science’s Women in Science Committee to examine the impact of competition on children participating in Design Challenges engineering experiences, and in particular, to see what effect, if any, the competitive design of these engineering activities had on girl participants. The research questions for this study included: 1. How does competition affect participants' engagement in engineering activities? 1.a Does this differ for boys and girls? 2. How does competition affect participants' desire to take part in future engineering activities? 2.a. Does
In the last two years SISSA Medialab designed, tested and evaluated two projects aiming at empowering children (in one case) and teenagers (in the other) to act as science journalists in order to promote a personal, critical attitude towards science and technology. The two groups produced a paper magazine and a blog, respectively, in a participatory process, in which adults acted as facilitators and experts on demand, but the youths were the leaders and owners of the products. Special care was taken to ensure inclusiveness, by involving in the project children and teenagers from any social
The Dimensions of Success (DoS) observation tool defines and provides rubrics (with levels 1-4) for 12 dimensions that were developed to measure STEM program quality in out-of-school time. This technical report summarizes the development of the instrument and findings from our initial study that included 284 observations in the field across 58 STEM programs in two geographic regions (New England and the Midwest). Data were collected by 46 trained observers who observed in pairs. This report is the initial step in developing a validity argument for the instrument.
DATE:
TEAM MEMBERS:
Ashima Mathur ShahCaroline WylieDrew Gitomer
The Dimensions of Success observation tool, or DoS, pinpoints twelve indicators of STEM program quality in out-of-school time. It was developed and studied with funding from the National Science Foundation (NSF) by the Program in Education, Afterschool and Resiliency (PEAR), along with partners at Educational Testing Service (ETS) and Project Liftoff. In 2014, a technical report was released, describing the tool and its psychometric properties (http://www.pearweb.org/research/pdfs/DoSTechReport_092314_final.pdf). The DoS observation tool focuses on understanding the quality of a STEM activity in an out-of-school time learning environment and includes an explanation of each dimension and its key indicators, as well as a 4-level rubric with descriptions of increasing quality. Today, over 700 people have been trained to use the DoS tool, and over 12 state networks have adopted DoS to measure the quality of their afterschool STEM programming.
DATE:
-
TEAM MEMBERS:
Program in Education, AfterschoolDr. Ashima ShahDrew Gitomer
The article focuses on children's makerspaces and the maker movement in Canada. Topics include the Nova Scotia government's idea to distribute 3D printers to libraries to create public makerspaces, which are collaborative meeting places that blend craft and high technology to foster do-it-yourself (DIY) solutions, the Maker Club in Kitchener, Ontario owned by entrepreneur Cam Turner and his son Owen, and the organization Scoperta, maker Jim Akeson's version of the organization Curiosity Hacked.
In this article the authors discuss the importance of the use of natural instincts in teaching and studying science, technology, engineering, and mathematics (STEM) courses in U.S. middle and high schools. They present information on the Maker Movement, a campaign associated with the Maker Faire festivals and "Make" magazine, which encourages the use of creativity in STEM fields. Other topics include the importance of natural curiosity, building, and inventions in science education.