Ages 10-14 mark a period in which children develop a strong sense of whether science is 'for them,' a time that typically coincides with the start of middle school in the United States and their first exposure to more rigorous science classes and testing. Experiences with science in and out of school can shape children's motivation to choose…

4-H is the youth development program of the Cooperative Extension and has identified Science, Technology, Engineering, and Math (STEM) as a national priority. Conducting STEM education during summer months for hard to reach youth can be a challenge. However, it is during summer when vulnerable students most often experience learning loss. During…

The purpose of this action research study was to develop a rubric that identified levels of integrated science, technology, engineering, and mathematics (STEM) lessons through agriculture, food, and natural resources (AFNR) lessons that were developed and implemented in afterschool programs by preservice informal educators. The research study…

Significant innovations in learning technologies are encouraging individuals, especially high school students, to seek enrichment learning opportunities that they normally are not able to take advantage of due to the limitation of traditional classroom offerings in low-income school districts. With the increase in learners seeking alternatives to…

Present and future challenges in our society demand a solid science, technology, engineering, and mathematics (STEM) knowledge base, innovative thinking, and the ability to ask the right questions to generate multiple solutions. To prepare innovators to meet these challenges, we must recognize and develop their talents. This advancement and growth…

Background: The Nebraska Science, Technology, Engineering, and Mathematics 4U (NE STEM 4U) program was initiated at the University of Nebraska at Omaha (UNO) in 2013. NE STEM 4U is a student-run, faculty-led program facilitating problem-based learning (PBL) sessions in science, technology, engineering, and mathematics (STEM) for socioeconomically…

Encouraging students to enter and persist in science, technology, engineering and mathematics (STEM) programs in higher education has been the focus of STEM education worldwide. To promote social equality particular attention has been given to including student groups such as women, ethnic minorities, and students with low economic status that…

The National Institutes of Health and the National Science Foundation have made a compelling call to action not only to strengthen the pipeline of available STEM-trained talent, but in addition to foster students who are members of populations currently under-represented in science. furthermore, the scientific community must not only increase the…

Informal science education (ISE) programs serve as a method for developing, encouraging, and increasing both participation in, and enthusiasm for, STEM learning. One type of ISE program is provided by Challenger Centers through their space education curricula. Unfortunately, published evaluations related to space education programs are rare. The…

Robotics is a powerful tool in education and it has gained a notable impact in the field of teaching computer science, engineering, math, physics and similar. As educational robotics laboratories stimulate many different abilities in students, such as problem solving and group working, it is possible to use robotics to promote soft skills as well.…

Background: The current study, Project EARPOD (Engaging At-Risk Populations Outdoors, Digitally), addressed two questions: First, does the use of technology in environmental education detract from students' experiences outdoors? Second, can these technological interventions be expanded to provide access to students and schools across the…

One plausible method for ensuring students are truly understanding science fundamentals beyond being actively and intellectually engaged is to consider how informal learning environments can provide meaningful relevancy by connecting to real-world instances. Transforming traditional science centers into informal learning centers will ensure that…

"Centering Race in the STEM Education of African American K-12 Learners" boldly advocates for a transformative approach to the teaching of STEM to African American K-12 learners. The achievement patterns of African American learners, so often described as an "achievement gap" between them and their White peers, is in fact the…

Students with disabilities are underrepresented in science, technology, engineering and mathematics (STEM) careers (National Science Foundation, 2015). The underrepresentation is a problem because the nation's competitiveness depends on diverse individuals with STEM knowledge, skills, and abilities to drive innovation that will need to new…

This paper summarises research findings from a longitudinal national evaluation of science, technology, engineering and mathematics (STEM) "enrichment and enhancement activities". The activities included science practical lessons, supported by ambassador visits, trips to laboratories, STEM centres and higher education institutions. The…