This study collected data from seven planetarium email lists (one per planetarium regional organization in the United States), as well as online survey panel data from residents in each area, to describe and compare those who do and do not visit planetariums.
Improving retention rates in postsecondary engineering degree programs is the single most effective approach for addressing the national shortage of skilled engineers. Both mathematics course placement and performance are strong graduation predictors in engineering, even after controlling for demographic characteristics. Underrepresented students (e.g., rural students, low-income students, first-generation students, and students of color) are disproportionately represented in cohorts that enter engineering programs not yet calculus-ready. Frequently, the time and cost of obtaining an engineering degree is increased, and the likelihood of obtaining the degree is also reduced. This educational problem is particularly acute for African American students who attended select high schools in South Carolina, with extremely high-poverty rates. As a result, the investigators proposed an NSF INCLUDES Launch Pilot project to develop a statewide consortium in South Carolina - comprising all of the public four-year institutions with ABET-approved engineering degree programs, all of the technical colleges, and 118 high schools with 70% or higher poverty rates, to pinpoint and address the barriers that prevent these students from being calculus ready in engineering.
This NSF INCLUDES Launch Pilot project will map completion/attrition pathways of students by collecting robust cross-sectional data to identify and understand the complex linkages between and behind critical decisions. Such data have not been available to this extent, especially focused on diverse populations. Further, by developing structural equation models (SEMs), the investigators will be able to build on extant research, contributing directly to understanding the relative impact of a range of latent variables on the development of engineering identity, particularly among African American, rural, low-income, and first-generation engineering students. Results of the pilot interventions are likely to contribute to the empirical and theoretical literature that focus on engineering persistence among underrepresented populations. Project plans also include developing a centralized database compatible to the Multiple Institution Database for Investigation of Engineering Longitudinal Development (MIDFIELD) project to share institutional data with K-12 and postsecondary administrators, engineering educators, and education researchers with NSF INCLUDES projects and beyond.
DATE:
-
TEAM MEMBERS:
Anand GramopadhyeDerek BrownEliza GallagherKristin Frady
resourceprojectProfessional Development, Conferences, and Networks
The NSF INCLUDES program supports models, networks, partnerships and research to ensure the broadening participation in STEM of women, members of racial and ethnic groups that have been historically underrepresented, persons of low socio-economic status, and people with disabilities.
The Algebra Project, in partnership with the Young People's Project, will convene a conference on inclusion in science, technology, engineering and mathematics(STEM) higher education in support of the National Science Foundation's Inclusion across the Nation of Communities of Learners of Underrepresented Discoverers in Engineering and Science (NSF INCLUDES) initiative. The conference will examine a critical question: What roles and structures are needed for a mini-backbone organization in order to scale a "bottom up" model of social change into an organized, full scale collective impact model? Additionally, the conference will develop participants' capacity to link action on the various design challenges, and backbone structures, to future actions that meet the needs of a potential Alliance on this Broadening Participation Challenge and others facing similar challenges.
Five pre-conference design teams will focus on key components to improve education of students from underrepresented and disadvantaged populations over a four-month period prior to the convening of the stakeholders in St. Louis, Missouri in 2017.
Learn how to create opportunities for young people from low-income, ethnically diverse communities to learn about growing food, doing science, and how science can help them contribute to their community in positive ways. The authors developed a program that integrates hydroponics (a method of growing plants indoors without soil) into both in-school and out-of-school educational settings.
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. 'Be a Scientist!' is a full-scale development project that examines the impact of a scalable, STEM afterschool program which trains engineers to develop and teach inquiry-based Family Science Workshops (FSWs) in underserved communities.
Our goal is to demonstrate an educational model fully commensurate with the demands of the 21st Century workforce, and more specifically, with the emerging “green-tech” economy. We recognize a pressing need creating more sustainable solutions for the (human) built-environment and of stabilizing economic patterns that uphold sustainable systems. to prepare citizens for the challenges of The ASCEND model is designed to encourage these societal shifts, but at the same time, it is an attempt to put theory into practice - activating educational practices aligned with research on human development and cognition. For some time now strong recommendations for apprenticeship learning have emphasized the function of legitimate peripheral participation – the possibility of which becomes more prevalent in robust communities of practice. As compared to top-down approaches (typical of formal education settings) these "learning communities" are seen as being more closely aligned with our natural propensities for learning and cognition. ASCEND represents a design-experiment -an attempt to learn how we can create and sustain opportunities for apprenticeship learning in an interdisciplinary arena at the leading edge of technical innovation. In addition, the ASCEND model introduces and examines the efficacy of “digital storytelling” as an alternative to more traditional forms of apprenticeship learning and as a means to engage and advance this and future generations in STEM. A further goal is to develop innovative measures of assessment commensurate with this new model of apprenticeship learning. Finally ASCEND explore how informal learning organizations (museums, libraries, preserves etc.) can use digital storytelling to develop community-driven programs inclusive of at-risk youth and other hard to reach audiences.