The article examines how school library programs are uniquely suited to initiate innovative thinking on how to leverage resources such as science fiction to help young people see the value of science, technology, engineering, and mathematics (STEM) in their daily lives. The authors report on the Sci-Dentity project launched in January 2012 which involves the collaboration between researchers and librarians at the University of Maryland in designing ways to incorporate sci-fi to STEM.
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TEAM MEMBERS:
Mega SubramaniamAmanda WaughJune AhnAllison Druin
The article discusses strategies for public libraries to offer programs and resources for science, technology, engineering, and mathematics (STEM) education and activity programs. The author comments on how public libraries can partner with businesses to offer STEM resources to library patrons and strengthen the role public libraries play in terms of education in their communities. Topics include the possibility of public libraries learning from science fairs to incorporate displays and nonfiction book lists that promote science, as well as strategies to organize nonfiction book holdings.
Multimodal technologies are creating new experiential opportunities for exploring, tinkering, learning and interacting in the virtual world. Once combined with sensorial objects and open-ended activities in the physical world, they introduce a new genre of interactive environments called ThinkeringSpace. ThinkeringSpace is a hybrid system - made of networked and remotely accessible physical environments - that seeks to bring school-age children together to collaborate face-to-face and tinker with things, both physical and virtual, reflect upon what they do and discover, and elaborate their
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TEAM MEMBERS:
Heloisa MouraDale FahnstromGreg PrygrockiT.J. McLeish
In the article, the author discusses technological developments in the education sector in the U.S. as of October 2013. He cites the introduction of the Next Generation Science Standards (NGSS) in early 2013 that is focused on science and engineering in the K-12 curriculum. The NGSS' four disciplinary core concepts include Earth and Space Sciences, Physical Sciences, and Engineering and Technology. He presents several NGSS-friendly software like Celestia and NetLogo, as well as hardware such as the Arduino open-source programmable controller.
We present a review of an after-school program that has been running at Queensborough Community College of the City University of New York for the past 5 years. The program is unique among after-school activities for high school students in several ways. First, it deliberately focuses on students who do not excel in science and math courses and students who are unsure about a college career. Second, it targets typically underrepresented minorities in the technology fields, namely blacks, Hispanics, and women. Third, it introduces these students to high-tech career options which do not require
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TEAM MEMBERS:
Amy BieberPaul MarcheseDon Engelberg
This study was designed to examine the impact of participating in an after-school robotics competition on high school students' attitudes toward science. Specifically, this study used the Test of Science-Related Attitude to measure students' social implications of science, normality of scientists, attitude toward scientific inquiry, adoption of scientific attitudes, enjoyment of science lessons, leisure interest in science, and career interest in science. Results indicated that students who participated in a robotic competition had a more positive attitude toward science and science-related
As the global economic competition gets tougher, American policymakers and researchers are interested in finding ways to increase the number of students pursuing STEM (Science, Technology, Engineering, and Mathematics)-related majors in order for the United States to continue its role as an economic powerhouse. A survey study was employed to investigate a multi-charter school system's (Harmony Public Schools [HPS]) after-school program in which doing a science fair project was expected for all 4th-12th grade students, and students were encouraged to participate STEM-related clubs (MATHCOUNTS
Females, students of color, and students of low socioeconomic status (SES) are often underserved or marginalized in mathematics education. However, some instructional approaches and intervention programs have been shown to educate these students more equitably. This study examines how girls of diverse racial/ethnic and socioeconomic backgrounds perceived the characteristics of one such intervention program as inspiring the development of greater confidence in their mathematics skills. This article explains the similarities and differences of the perceptions of each group, as well as the
The article discusses the 4-H Science mission of the 4-H Youth Development Program, an out-of-school-time program addressing science technology engineering and mathematics (STEM) learning. It states that one of the approaches is on robotics education using a Junk Drawer Robotics curriculum having three levels: Give Robots a Hand, Robots on the Move, and Mechatronics, each level having modules that focus on science and engineering concepts.
This presentation given at the 2013 Materials Research Society (MRS) Spring Meeting examines evidence for the effectiveness of STEM education programs at the National High Magnetic Field Laboratory.
Currently, there are policy debates regarding the efficacy and legality of single sex formal and informal education programs. This issue is particularly poignant in science education due to the historical marginalization of women in these fields. This marginalization has resulted in women being positioned as a stigmatized group within many science, technology, engineering, and mathematics (STEM) related fields. Research points to adolescence as the age where this sense of marginalization begins to develop. As a result, policy responses have utilized various frameworks such as: increased access