This NSF INCLUDES Design and Development Launch Pilot (named ALCSE-INCLUDES) project will develop and implement an innovative computer science (CS) education model that will provide all 8th grade students in 3 districts in Alabama's 'Black Belt' with exciting and structured hands-on activities intended to make CS learning enjoyable. The course will use an educational style called "learning CS by making" where students will create a CS-based product (such as a robot) and understand the concepts that make the product work. This hands-on approach has the potential to motivate diverse student populations to pursue higher level CS courses and related disciplines during and after high school, and to join the CS workforce, which is currently in need of more qualified workers.
ALCSE-INCLUDES Launch Pilot will unite the efforts of higher education institutions, K-12 officials, Computer Science (CS)-related industry, and community organizations to pursue a common agenda: To develop, implement, study, and evaluate a scalable and sustainable prototype for CS education at the middle school level in the Alabama Black Belt (ABB) region. The ABB is a region with a large African-American, low-income population; thus, the program will target individuals who have traditionally had little access to CS education. The prototype for CS education will be piloted with 8th grade students in 3 ABB schools, using a set of coordinated and mutually reinforcing activities that will draw from the strengths of all members of the ALCSE Alliance. The future scaled-up version of the program will implement the prototype in the 73 middle schools that comprise ALL 19 school districts of the ABB. The program's main innovation is to provide CS education using a makerspace, a dedicated area equipped with grade-appropriate CS resources, in which students receive mentored and structured hands-on activities. The goal is to engage ALL students, in learning CS through making, an evidence-based pedagogical approach expected to reinforce skills and promote deep interest in CS.
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TEAM MEMBERS:
Shaik JeelaniBruce CrawfordMohammed QaziJeffrey GrayJacqueline Brooks
Designing for Diversity will establish a national Networked Improvement Community (NIC) of maker spaces and fab labs serving Black and Latino high school students and specializing in computational making programs. The project will be led by the New York Hall of Science, the Carnegie Foundation for the Advancement of Teaching and a national leadership team representing universities, cultural organizations, corporations, foundations and leaders in the Maker Movement. Using a NIC methodology, the partners will identify the most promising mechanisms for ensuring that participation in computational making programs has a significant impact on participants' choices to pursue STEM focused internships, post-secondary education, and career paths. The project will extend the NIC methodology into the informal learning community, which is in need of research methods that are both rigorous and accommodating of the institutional complexities of building and sustaining high-quality informal learning environments, and it will contribute to the literature on the impact of maker spaces and fab labs in underserved communities on the diversification of the STEM pipeline. The project will also pave the way for the development of a more fully-developed network of computational making programs across the country and a more comprehensive research initiative that will influence best practices in maker spaces and fab labs and foster perceptions of the value and impact of maker experiences on young people's readiness for future educational experiences and careers.
The project builds on research indicating that computational making - programs that combine the making of artifacts with computational tools and techniques - is a powerful strategy for engaging underrepresented students in STEM learning. However, participation in such programs will not necessarily lead students to take concrete steps toward computationally-rich STEM careers in which they are currently under-represented. A range of research suggests that computational making programs need to explicitly design for and address the socio-emotional dimensions of these learning experiences in order for them to become stepping stones into these careers. Designing for Diversity will work with a network of maker programs serving high needs Black and Latino high school students to address these learning factors. During this pilot, the leadership team will accomplish three tasks: (1) establish a common framework, shared measurement objectives and guidelines that will be used to identify, recruit and support participant maker programs and their local partners; (2) develop and coordinate the NIC's capacity for scaling and disseminating its work by connecting the research efforts to broader national initiatives; and (3) recruit, train, and collect baseline data on the Designing for Diversity NIC.
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TEAM MEMBERS:
Margaret HoneyKatherine McMillanPaul LeMahieuAndres Henriquez