STEMulating Interest: A Meta-Analysis of the Effects of Out-of-School Time on Student STEM Interest

Young, Jamaal; Ortiz, Nickolaus A.; Young, Jemimah L.

doi:10.18404/ijemst.61149

Cited by 102 publications

(96 citation statements)

References 60 publications

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“…Students who participate in expanded learning opportunities are also 20% less likely to drop out of school and 30% less likely to participate in criminal activities than peers who did not participate (Moeller & Reitzes, 2011;Vandell, Reisner, & Pierce, 2007). While studies among middle and high school students often demonstrate significant positive effects of out-of-school time (OST) STEM programs on youth interest in STEM, data about how similar programs impact elementary students' interest in STEM are lacking (Young, Ortiz, & Young, 2017). Existing after-school programs that provide such opportunities to youth can utilize various pedagogical methods, such as inquiry-based learning (IBL), project-based learning, and peer-led team learning (Alexander, 2000).…”

Section: A Critical Time For Stem Education In After-school Timementioning

confidence: 99%

Fostering Curiosity, Inquiry, and Scientific Thinking in Elementary School Students: Impact of the NE STEM 4U Intervention

Leas

Nelson

Grandgenett

et al. 2017

JYD

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In this qualitative study, we assessed the impact of the NE STEM 4U intervention on elementary school youth in terms of excitement, curiosity, and STEM concepts. The NE STEM 4U intervention incorporates a problem-based learning theoretical framework in an after-school time, weekly or twice-weekly intervention. We assessed student performance over two academic years of participation in the intervention using the Dimensions of Success observational tool. Ultimately, we link this mentor-led program with increases in curiosity, inquiry, and STEM concept gains. Taken together, these findings support after-school interventions in STEM areas as key encouraging excitement in youth and motivation to pursue a career in a STEM content area.

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Section: A Critical Time For Stem Education In After-school Timementioning

confidence: 99%

Fostering Curiosity, Inquiry, and Scientific Thinking in Elementary School Students: Impact of the NE STEM 4U Intervention

Leas

Nelson

Grandgenett

et al. 2017

JYD

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“…The number of American students earning bachelor's degrees increased by 16% over the past 10 years, however, the number of bachelor's degrees earned in engineering decreased by 15% (O'Riley, 2013). Nationally, less than 50% of the students who enrolled in engineering curriculum complete the program (Young, Ortiz & Young, 2017). American Universities typically lose 50% or more of engineering freshmen and sophomore during the first two years of their engineering program.…”

Section: Literature Reviewmentioning

confidence: 99%

K12 Teacher Credentialing Containing Engineering Content in the USA

Özfidan

Miranda

2017

EURASIA J MATH SCI T

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To gain a better understanding of the landscape of State credentialing options related to the teaching of engineering at the K12 level, NAE/BOSE commissioned this paper and study that describes this landscape and provide relevant details for as many States as it is possible to do so. This project includes the taxonomy of the various types of credentialing offered by each State, and it defines these different types of credentials. A two-phase research method was used in order to investigate each State credentialing/certification program. The first phase of the method examined each State credentialing/certification program through the individual State Department of Education. The second phase focused on Career and Technical Education (CTE) credentialing/certification programs that contain engineering and/or engineering design content. A member check technique was used to help improve the accuracy, credibility, validity, and transferability of the study. Each State credentialing/certification program was thoroughly examined through State Department of Education and CTE teacher credentialing pathways. The results indicate that 94.2% of State teacher credentialing/certification programs contain engineering or engineering design content; however, 5.8% of State teacher credentialing programs do not include any engineering content. Each of these credentialing/certification areas also requires a test that contains engineering content.

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“…Moreover, low confidence and selfefficacy in STEM subjects form as early as grade six (Heaverlo et al, 2013). Early intervention to mitigate negative influences can ultimately have an effect on a women's choice to enter STEM (Young, Ortiz, & Young 2017;Bieri Buschor, Berweber, Keck Frei, & Kappler, 2014;Hughes, 2015;Wang & Degol, 2013;Heaverlo et al, 2013).…”

Section: Middle School As An Important Time For Interventionmentioning

confidence: 99%

“…Most middle school programming aims to build interest in STEM, which can become a factor in decisions about college major and career path (Hall, Dickerson, Batts, Kauffmann & Bosse, 2011;Tsui, 2009). From a meta-analysis of 15 studies of out-of-school time STEM programs at the elementary, middle school, and high school levels, Young, Ortiz, and Young (2017) concluded that out-of-school time has a positive effect on student interest in STEM at the middle school and high school level, regardless of student gender. Additionally, middle school intervention programs can have a positive effect on STEM identity, help mitigate negative peer pressure, and neutralize adverse influences such as stereotype threat (Hughes, 2015;Wang & Degol, 2013).…”

Section: The Efficacy Of Stem Outreach Programs For Middle School Girlsmentioning

confidence: 99%

“…For example, Leaper (2014) assessed the influence of a women's peer group on underrepresentation in STEM and found that peer support is positively associated with achievement, which in turn is associated with interest. Young, Ortiz, and Young (2017) found that successful intervention programs had both an academic and a social component incorporated. In addition, numerous studies have demonstrated the benefits of positive role models (Hughes, 2015;Bieri Buschor et al, 2014;Demetry & Sontgerath, 2013;Fadigan & Hammerich, 2004).…”

Section: The Efficacy Of Stem Outreach Programs For Middle School Girlsmentioning

confidence: 99%

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A middle school engineering outreach program for girls yields STEM undergraduates

Demetry

Sontgerath

2017 ASEE Annual Conference &Amp; Exposition Proceedings

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, use of educational technology, K-12 engineering outreach, and intercultural learning in experiential education abroad. As director of the Morgan Center at WPI since 2006, Demetry coordinates programs and services fostering excellence and innovation in teaching at WPI and supports course-based and program-level assessment of student learning outcomes. Many engineering units within universities continue to work toward gender parity among their undergraduates. One strategy is to offer STEM enrichment programs for young women. Experts agree that middle school is an optimal time for intervention, and numerous studies show that middle school outreach programs for girls can enhance interest in STEM. Some universities, however, may be hesitant to invest in middle school programming without evidence of long-term impact. This study shows that rising 7 th grade girls who participated in a two-week residential engineering enrichment program at a STEM-intensive university later applied as undergraduates, were admitted, and enrolled at higher rates than a control group. The experimental design of this study is relatively unusual for middle school enrichment programs and eliminates potential bias due to self-selection or a competitive application process. Ms IntroductionThe question of diversity in science, technology, engineering and mathematics has been a topic of research for close to half a century. In spite of numerous efforts to diversify STEM (Science, Technology, Engineering and Mathematics) and definite progress in some disciplines, we still have a long way to go to reach gender parity, especially in engineering. In 1998, the percentage of first year college women who entered engineering was 2.7%. In 2014, that number was 5.8% of all first year women (National Science Board, 2016).While this represents a 100% increase in the representation of women among first year engineering students, it pales in comparison to overall representation of women students in four year institutions, which reached 57% in 2014. Clearly, work to increase gender diversity in engineering must continue (Pryor, Hurtado, Saenz, Santos & Korn 2007; National Research Council, 2006).The paucity of women in engineering is particularly evident at technical institutions where most students major in a STEM discipline. As such, these institutions face a significant gender disparity in their student populations. For example, at the university where this research was conducted, approximately 96% of undergraduates are working toward degrees in engineering, the natural sciences, mathematics, or computer science. Thirty-three percent of the student body is female. These data are typical for most of our peer technological institutions with similar offerings and is consistent with national data which indicate that 25.8% of first year women intend on majoring in STEM disciplines, with a breakdown as follows: biological/agricultural sciences (15.8%), mathematics and computer science (2.1%), physical sciences (2.1%), and engineering (5.8%) (National Science Boar...

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STEMulating Interest: A Meta-Analysis of the Effects of Out-of-School Time on Student STEM Interest

Cited by 102 publications

References 60 publications

Fostering Curiosity, Inquiry, and Scientific Thinking in Elementary School Students: Impact of the NE STEM 4U Intervention

Fostering Curiosity, Inquiry, and Scientific Thinking in Elementary School Students: Impact of the NE STEM 4U Intervention

K12 Teacher Credentialing Containing Engineering Content in the USA

A middle school engineering outreach program for girls yields STEM undergraduates

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