Science and Mathematics Education Commons^™

Science Through Art: Motivating Gifted And Talented Students, Ksenia Zhbanova

Journal of STEM Arts, Crafts, and Constructions

Gifted and talented students have unique characteristics and needs. Arts Integration is an effective differentiation strategy that helps meeting these students’ needs. STEM subjects are easily and organically integrated with the Arts because scientific and artistic inquiry are very similar. This practical article describes an arts-integrated project that provided the gifted and talented participants with an increased level of challenge, an opportunity for self-expression and for building social skills, amplified motivation, and a chance to deepen and demonstrate their knowledge of science, technology, engineering, mathematics, social studies and English Language Arts. In this project, identified gifted students completed figural transformations …

Female Students’ Academic Engagement And Achievement In Science And Engineering: Exploring The Influence Of Gender Grouping In Small Group Work In Design-Based Learning Contexts In High School Biology, Miancheng Guo

Doctoral Dissertations

In the past 30 years, although much effort has been made to narrow the gender gap in science, technology, engineering and mathematics (STEM), females are still largely underrepresented in some important STEM fields, such as physics and engineering (NSF, 2007). To deal with this situation, people from different sectors have long reached a common understanding: Educators must improve school girls’ interest, participation and engagement in STEM subjects (e.g., Office of Science and Technology Policy, 2013). In the K-12 classroom, small group work has been shown to promote an equitable environment for girls’ learning in science and have a positive impact …

Students' Perceptions Of Stem Learning After Participating In A Summer Informal Learning Experience, Thomas Roberts, Christa Jackson, Margaret J. Mohr-Schroeder, Sarah B. Bush, Cathrine Maiorca, Maureen Cavalcanti, D. Craig Schroeder, Ashley Delaney, Lydia Putnam, Chase Cremeans

Science, Technology, Engineering, and Mathematics (STEM) Education Faculty Publications

Background: Informal learning environments increase students’ interest in STEM (e.g., Mohr‐Schroeder et al. School Sci Math 114: 291–301, 2014) and increase the chances a student will pursue a STEM career (Kitchen et al. Sci Educ 102: 529–547, 2018). The purpose of this study was to examine the impact of an informal STEM summer learning experience on student participants, to gain in-depth perspectives about how they felt this experience prepared them for their in-school mathematics and science classes as well as how it influenced their perception of STEM learning. Students’ attitudes and perceptions toward STEM are affected by their motivation, experience, …

The Educational Emphases Of Science Teachers In Us Evangelical Protestant High Schools, Albert Chang

Education Reform Faculty and Graduate Students Publications

I examine the educational emphases of science teachers in Evangelical Protestant (EP) schools, including (1) teaching basic content knowledge, (2) improving scientific reasoning skills, and (3) presenting real-world applications of science. Using a nationally representative sample of US ninth-graders, I find differences in these educational emphases between science teachers in EP schools and science teachers in secular private, Catholic, and public schools. I also find suggestive evidence that differences in STEM-related student outcomes across school sectors, which have been demonstrated in prior research, are associated with cross-sector differences in the emphases of science teachers.

Development And Validation Of The Value-Expectancy Stem Assessment Scale For Students In Higher Education, Joseph Appianing, Richard Van Eck

Teaching, Leadership & Professional Practice Faculty Publications

Background: Science, technology, engineering, and math (STEM) jobs are expected to make up a significant portion of the U.S. workforce. Unfortunately, the trend in retaining students in STEM majors has been going down. If higher education institutions are going to retain more students in STEM majors, it will be important to understand who leaves STEM fields and why. More than 32% of women college students who declare a STEM major are likely to switch to non-STEM majors before they graduate, whereas only 25% of their male counterparts do so, and women may be as much as 1.5 times more likely …

Incorporating Diegetic Elements To Increase Engagement In Games For Engineering Education, Katherine Smith, Yuzhong Shen, Anthony W. Dean

VMASC Publications

One of the difficulties in developing educational games is maintaining player engagement. This engagement is critical for games to provide effective learning experiences. One way to increase engagement in games is to limit interruptions during game play. In educational games, this can be accomplished by incorporating learning or problem-solving elements diegetically. Diegetic elements are those that are part of the game scene. With this in mind, a series of games for Science, Technology, Engineering, and Mathematics (STEM) education has been developed focusing on content in courses that are prerequisites to the engineering curriculum. These games cover topics in pre-calculus, calculus, …

The Effects Of Stem Education On Economic Growth, Mallory Croak

Honors Theses

This thesis aims to build on existing studies of human capital and returns to education with a focus on innovation-fueling, STEM-based education, to answer: How does STEM education affect macroeconomic growth across different countries? A review of literature reveals that many studies account for human capital in growth equations, measured as average years of education. However, educational attainment as a measure of human capital leaves out the additional impact of research, technological know-how and innovation on growth. This thesis seeks to bridge some of the overlap between education and innovation as it affects productivity by focusing on education in STEM—fields …

Challenges In Stem Learning In Australian Schools: Literature And Policy Review, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Professor Kathryn Moyle (consultant)

This literature and policy review outlines the complex context related to STEM learning in Australian schools and focuses on student outcomes, the teacher workforce and the curriculum. This paper also sheds light on possible policy directions by examining lessons from other countries. STEM education is a broad enterprise that starts in early childhood education, continues through the years of schooling and extends into tertiary education supported by contributions from extracurricular and enrichment activities, science centres and museums. However, the focus in this document is on primary and secondary schooling. Australian STEM education seems caught in a whirlpool of problems that …

Challenges In Stem Learning In Australian Schools, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Professor Kathryn Moyle (consultant)

Australian STEM education seems caught in a whirlpool of problems that are contributing to one another. Student engagement and performance in STEM are declining, but we do not have the supply of qualified teachers we need to improve learning. The STEM curriculum is unbalanced and fragmented, leading to less interest among students. It is not possible to break out of the downward cycle from within the current system and it requires policy changes that address the issues raised in this report. This means developing well-considered, systemic and joined-up policies that address the following challenges: Improving student outcomes, building the STEM …

Challenges In Stem Learning In Australian Schools, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Dr Paul Weldon

Australian STEM education seems caught in a whirlpool of problems that are contributing to one another. Student engagement and performance in STEM are declining, but we do not have the supply of qualified teachers we need to improve learning. The STEM curriculum is unbalanced and fragmented, leading to less interest among students. It is not possible to break out of the downward cycle from within the current system and it requires policy changes that address the issues raised in this report. This means developing well-considered, systemic and joined-up policies that address the following challenges: Improving student outcomes, building the STEM …

Challenges In Stem Learning In Australian Schools: Literature And Policy Review, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Dr Paul Weldon

This literature and policy review outlines the complex context related to STEM learning in Australian schools and focuses on student outcomes, the teacher workforce and the curriculum. This paper also sheds light on possible policy directions by examining lessons from other countries. STEM education is a broad enterprise that starts in early childhood education, continues through the years of schooling and extends into tertiary education supported by contributions from extracurricular and enrichment activities, science centres and museums. However, the focus in this document is on primary and secondary schooling. Australian STEM education seems caught in a whirlpool of problems that …

Challenges In Stem Learning In Australian Schools, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Pru Mitchell

Australian STEM education seems caught in a whirlpool of problems that are contributing to one another. Student engagement and performance in STEM are declining, but we do not have the supply of qualified teachers we need to improve learning. The STEM curriculum is unbalanced and fragmented, leading to less interest among students. It is not possible to break out of the downward cycle from within the current system and it requires policy changes that address the issues raised in this report. This means developing well-considered, systemic and joined-up policies that address the following challenges: Improving student outcomes, building the STEM …

Challenges In Stem Learning In Australian Schools: Literature And Policy Review, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Pru Mitchell

This literature and policy review outlines the complex context related to STEM learning in Australian schools and focuses on student outcomes, the teacher workforce and the curriculum. This paper also sheds light on possible policy directions by examining lessons from other countries. STEM education is a broad enterprise that starts in early childhood education, continues through the years of schooling and extends into tertiary education supported by contributions from extracurricular and enrichment activities, science centres and museums. However, the focus in this document is on primary and secondary schooling. Australian STEM education seems caught in a whirlpool of problems that …

Challenges In Stem Learning In Australian Schools: Literature And Policy Review, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Dr Michael J Timms

This literature and policy review outlines the complex context related to STEM learning in Australian schools and focuses on student outcomes, the teacher workforce and the curriculum. This paper also sheds light on possible policy directions by examining lessons from other countries. STEM education is a broad enterprise that starts in early childhood education, continues through the years of schooling and extends into tertiary education supported by contributions from extracurricular and enrichment activities, science centres and museums. However, the focus in this document is on primary and secondary schooling. Australian STEM education seems caught in a whirlpool of problems that …

Challenges In Stem Learning In Australian Schools, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Dr Michael J Timms

Australian STEM education seems caught in a whirlpool of problems that are contributing to one another. Student engagement and performance in STEM are declining, but we do not have the supply of qualified teachers we need to improve learning. The STEM curriculum is unbalanced and fragmented, leading to less interest among students. It is not possible to break out of the downward cycle from within the current system and it requires policy changes that address the issues raised in this report. This means developing well-considered, systemic and joined-up policies that address the following challenges: Improving student outcomes, building the STEM …

Challenges In Stem Learning In Australian Schools, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Policy Insights

Australian STEM education seems caught in a whirlpool of problems that are contributing to one another. Student engagement and performance in STEM are declining, but we do not have the supply of qualified teachers we need to improve learning. The STEM curriculum is unbalanced and fragmented, leading to less interest among students. It is not possible to break out of the downward cycle from within the current system and it requires policy changes that address the issues raised in this report. This means developing well-considered, systemic and joined-up policies that address the following challenges: Improving student outcomes, building the STEM …

Challenges In Stem Learning In Australian Schools: Literature And Policy Review, Michael J. Timms, Kathryn Moyle, Paul R. Weldon, Pru Mitchell

Policy Analysis and Program Evaluation

This literature and policy review outlines the complex context related to STEM learning in Australian schools and focuses on student outcomes, the teacher workforce and the curriculum. This paper also sheds light on possible policy directions by examining lessons from other countries. STEM education is a broad enterprise that starts in early childhood education, continues through the years of schooling and extends into tertiary education supported by contributions from extracurricular and enrichment activities, science centres and museums. However, the focus in this document is on primary and secondary schooling. Australian STEM education seems caught in a whirlpool of problems that …

Motivation And Gender Dynamics In High School Science: The Effect Of Gender Composition On Motivation In Small Group Inquiry And Engineering Tasks, Julie Robinson

Doctoral Dissertations

While current research shows that the gender gap in science achievement has disappeared (Miller, Blessing, & Schwartz, 2006), girls continue to show declining levels of STEM (science, technology, engineering, and math) engagement in school. Literature shows that various societal and educational factors impact girls’ STEM motivation disproportionately to boys (Bennett & Hogarth, 2009; Breakwell & Robertson, 2001; Brotman & Moore, 2008; Campbell & Clewell, 1999; Cokadar & Kulce, 2008; Huebner, 2009; Jovanovic & King, 1998; Lee, 1998; Miller, Blessing, & Schwartz, 2006; Osborne, Simon, & Collins, 2003; Solomon, 1997). The onset of this phenomenon occurs in the middle school years …

Impact Report 2018: Equity And Excellence, Illinois Mathematics And Science Academy

Impact Reports

For over 30 years, the Illinois Mathematics and Science Academy (IMSA) has pioneered the future of science, technology, engineering and mathematics (STEM) education through its two legislative charges: 1) to provide a uniquely challenging education for students talented in the areas of mathematics and science; and 2) to stimulate further excellence for all Illinois schools in mathematics and science. IMSA champions these goals through:

• Residential education: Helping talented 10th-12th graders representing over 93% of Illinois counties to date reach their fullest potential.
• Student and educator outreach: Leading the charge to continually innovate K-12 STEM education, creating a strong and diverse …

Ten Years Of The Real World Design Challenge, Robert W. Deters, Brent Terwilliger, S.C. Kleinke, Ralph K. Coppola, Jeff Coppola

Publications

Preparing students to be successful in STEM careers is important to foster continued growth in the US and the world. The Real World Design Challenge is a high school design competition focused on the area of aviation. Students work in teams to solve a real world problem using professional tools. The 2018 challenge marks the tenth anniversary of this program. The first students to compete in this competition are now in the work force. This paper describes the background of RWDC, the different challenges that have been used throughout its ten years, the current precision agriculture challenges using UAS, and …

Reflections On Stem, Standards, And Disciplinary Focus, Philip A. Reed

STEMPS Faculty Publications

The article offers information concerning STEM education, technology education discipline, and standards for technological literacy. It discusses a revision of the "Standards for Technological Literacy" transcending the existing K-12 focus as well as including PreK, informal and extracurricular technology education, adult learning, and other settings.