Integrating Computing Across the Curriculum: Incorporating Technology into STEM Education

Integrating Computing Across the Curriculum: Incorporating Technology into STEM Education

Alia Carter (University of Alabama – Birmingham, USA), Shelia R. Cotton (University of Alabama – Birmingham, USA), Philip Gibson (University of Alabama – Birmingham, USA), LaToya J. O’Neal (University of Alabama – Birmingham, USA), Zachary Simoni (University of Alabama – Birmingham, USA), Kristi Stringer (University of Alabama – Birmingham, USA) and Leticia S. Watkins (University of Alabama – Birmingham, USA)
Copyright: © 2014 |Pages: 28
DOI: 10.4018/978-1-4666-4538-7.ch009
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The need for technology-enriched learning environments is driven by advancements in 21st century technology and an increase in STEM-related careers. Although women and racial/ethnic minorities make up a significant portion of the American workforce, they remain underrepresented in STEM-related careers. Integrating Computing Across the Curriculum (ICAC) is a five-year research intervention project whose aim is to reduce STEM career-related inequality by providing teachers with the resources they need to integrate computing across the curriculum. The ICAC integration model involves administrators, teachers, students, and their parents. This chapter provides support for the ICAC model as a means of promoting student interest in STEM and as a means of developing technology-enriched curricula designed to improve 21st century teaching and learning.
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Advancements in 21st century technology are changing the occupational landscape. Careers requiring only general proficiencies are being replaced by those requiring more specialized competencies (Wagner, 2010). More specifically, careers in the fields of science, technology, engineering, and mathematics, abbreviated as STEM, are growing at a rapid pace (Milfort, 2012). From the year 2000 to the year 2010, STEM careers experienced a growth of 7.9% and these numbers are expected to more than double in the coming years with STEM careers projected to grow by 17% between 2008 and 2018 (Langdon, Mckittrick, Beede, Kahn, & Doms, 2011). In order to build a workforce that is prepared for 21st century careers, we must begin including STEM education as early as elementary school as the fourth and fifth grades are when students begin to lose interest in STEM (Chall & Jacobs, 2003). Moreover, we must address the issue of STEM career inequality. Despite the proportion of women and racial/ethnic minorities who make up the U.S. workforce, both groups remain underrepresented in the STEM areas (U.S. Department of Labor Statistics, 2013; U.S. Department of Labor Statistics, 2012). Thus, integrating computing across the K-12 curriculum is necessary not only for advancing 21st century teaching and learning but for decreasing STEM career inequality as well.

Despite the potential of technology use to improve teaching and learning, many teachers fail to adopt technology as a means of engaging students in their classrooms. Several factors influence teacher use of technology and student interest in STEM careers. Teacher adoption of classroom technology is influenced by factors such as their own knowledge and skill levels, their comfort using technology, technology use among colleagues, school resources and adoption of technology, technology related professional development and support of technology integration issues (Afshari, Bakar, Luan, Samah, & Fooi, 2009; Carvin, 1999; Dexter, Anderson, & Becker, 1999; Eteokleous, 2008; Inan & Lowther, 2010). Student engagement is impacted by teacher use of technology, teacher attitudes towards technology, and teachers’ teaching philosophy (Baylor & Ritchie, 2002; Becker & Ravitz, 2001; Becker & Riel, 2000; Cardelle-Elawar & Wetzel, 1995; Carvin, 1999; Dexter et al., 1999; Eteokleous, 2008; Keengwe, Schnellert, & Mills, 2012; Mouza, 2008). Parental involvement also impacts teaching and learning of technology in the K-12 classroom (Ortiz, Green, & Lim, 2011; Selwyn, 2011).

Computer access has opened an exciting new dimension for STEM education; however, if computers in the classroom are to realize their full potential as a tool for advancing STEM education, methods must be developed to allow them to serve as a bridge across the STEM disciplines. Integrating Computing Across the Curriculum (ICAC) is a multi-method, multi-disciplinary project with the primary goal of increasing the number of minority students in the STEM pipeline. ICAC provides teachers and students with the resources needed to enhance STEM education in the elementary school classroom.

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