Science and Mathematics Education Commons^™

Arts Integration Into Elementary Science: Force And Motion And Natural Disasters, Eric C. Ooms, Tabitha M. Wu, Ashley R. Kokemuller, Sarah E. Montgomery, Audrey C. Rule

Journal of STEM Arts, Crafts, and Constructions

This study explored the effect of arts integration into science during an instructional unit on force and motion and one addressing natural weather disasters. Seventy-eight elementary students in four classrooms (grade 5, grade 4, and two at grade 3) participated in the study. This study assessed content retention, student-made products (rollercoasters and hurricane shelters), and student attitudes. All students in each classroom experienced the two units of instruction, one unit in the experimental condition of arts integration and one unit in the control condition without arts integration. Both conditions involved students in constructing models of given materials. Each unit consisted …

Second Grade Students Learn About Civil Engineers And Erosion, Andrea Earline Anderson, Jessica A. Meier

Journal of STEM Arts, Crafts, and Constructions

The integration of art into curricula focused on teaching science is a new perspective in education designed to reach a broader range of students. The current study examined the process of second-grade students participating in science and art activities through qualitative content analysis. The subjects of science and art were not taught to the students separately, rather, students engaged in both subjects simultaneously, in an integrated manner. Participants were 23 second-grade students (11 female and 12 male; age range 7 to 8 years) who were learning about erosion through sketching and creative construction and the work of civil engineers through …

Ecosystem Shake Up: An Environmental Change Adaptation Project, Hannah E. Morgan, Dana Atwood-Blaine, Audrey C. Rule

Journal of STEM Arts, Crafts, and Constructions

This practical article reports an intriguing diorama project for third grade elementary students (ages 8-9 years). Students worked as partners to create dioramas of given ecosystems made in pizza boxes. Then, students rolled a die to determine a change in some environmental factor that affected the ecosystem. The students discussed how this change affected the ecosystem and made a second part of their diorama showing the ecosystem after the change. Finally, students made class presentations concerning their dioramas and ideas. A rubric for assessing the projects is included. Results of this science project indicate that students became deeply engrossed in …

Exploring The Physics Of Sound With Steam-Azing Third Graders, Page L. Foss, Kyrie D. Borsay

Journal of STEM Arts, Crafts, and Constructions

This practical article was based on a lesson conducted with third graders from an elementary school in the Midwest who were studying concepts about sound. The lesson activities address Next Generation Science Standards that include engineering concepts, along with integrating activities that support National Core Arts Standards. The students created instruments that made music but that were not the standard string, percussion or wind orchestral instruments that they had previously studied: string, percussion, or wind. Their instruments made of recycled materials included drum and shaker combinations, animal-shaped instruments, and instruments that combined three or more instruments.

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 …

Editorial: Arts Integration Allows Students The Opportunity To Be Original, Ksenia S. Zhbanova, Audrey C. Rule

Journal of STEM Arts, Crafts, and Constructions

This editorial explores the other six articles in this issue 2 of volume 3 of the Journal of STEM Arts, Crafts, and Constructions to examine how originality is displayed and supported by art projects. Originality, is a quality or a characteristic of an idea, approach or product. Originality can be defined as newness or novelty. To be classified as original, an idea must be new. It does not have to have a utilitarian value, which is a requirement for an idea to be categorized as creative. Helping students develop originality is important because it allows the freedom to make any …

Implementing Ngss Engineering Disciplinary Core Ideas In Middle School Science Classrooms: Results From The Field, Jessica Gale, Jayma Koval, Mike Ryan, Marion Usselman, Stefanie Wind

Journal of Pre-College Engineering Education Research (J-PEER)

With the inclusion of engineering disciplinary core ideas (DCIs), the Next Generation Science Standards (NGSS) position engineering as a new priority in K–12 science classrooms. This paper reports findings from the implementation of SLIDER, a problem-based learning 8th grade physical science curriculum that integrates engineering and physical science core ideas. As a culminating engineering design challenge, the SLIDER curriculum asks students to apply their understanding of energy, motion, and forces to design an automatic braking system for a robotic truck. The paper describes the curriculum and synthesizes findings from an array of data sources including student design interviews, written design …

Stem Roles: How Students’ Ontological Perspectives Facilitate Stem Identities, Dina Verdín, Allison Godwin, Monique Ross

Journal of Pre-College Engineering Education Research (J-PEER)

Educational researchers have explored the importance of performance, recognition, and interest in establishing and maintaining a STEM identity. Research has also demonstrated that the ways students describe themselves and how they participate in STEM communities can provide insight into their role identity salience; however, there has been little work to explore the ontological beliefs of students about STEM people and how this influences their ability to see themselves as possessing a STEM identity. This research explores the ontological beliefs of high school students, with specific attention to the ways in which they describe what constitutes a math person, science person, …

Taking Professional Development From 2d To 3d: Design-Based Learning, 2d Modeling, And 3d Fabrication For Authentic Standards-Aligned Lesson Plans, Darran R. Cairns, Reagan Curtis, Konstantinos A. Sierros, Johnna J. Bolyard

Interdisciplinary Journal of Problem-Based Learning

There is currently significant interest in 3D fabrication in middle school classrooms. At its best 3D printing can be utilized in authentic design projects that integrate math, science, and technology, which facilitate deep learning by students. In essence, students are able to tinker in a virtual world using 3D design software and then tinker in the real world using printed parts. We describe a professional development activity we designed to enable middle school teachers who had taken part in a three-year Math Science Partnership program to authentically integrate 3D printing into design-based lessons. We include some examples of successful design-based …

Work In Progress: Institutional Context And The Implementation Of The Redshirt In Engineering Model At Six Universities, Ann Delaney, Donna C. Llewellyn, Janet Callahan

Materials Science and Engineering Faculty Publications and Presentations

Low-income students are underrepresented in engineering and are more likely to struggle in engineering programs. Such students may be academically talented and perform well in high school, but may have relatively weak academic preparation for college compared to students who attended better-resourced schools. Four-year engineering and computer science curricula are designed for students who are calculus-ready, but many students who are eager to become engineers or computer scientists need additional time and support to succeed. The NSF-funded Redshirt in Engineering Consortium was formed in 2016 as a collaborative effort to build on the success of three existing “academic Redshirt” programs …

The Redshirt In Engineering Consortium: Progress And Early Insights, Janet Callahan, Donna C. Llewellyn, Ann E. Delaney

Materials Science and Engineering Faculty Publications and Presentations

The NSF-funded Redshirt in Engineering Consortium was formed in 2016 with the goal of enhancing the ability of academically talented but underprepared students coming from lowincome backgrounds to successfully graduate with engineering degrees. The Consortium takes its name from the practice of redshirting in college athletics, with the idea of providing an extra year and support to help promising engineering students complete a bachelor’s degree. The Consortium builds on the success of three existing “academic redshirt” programs and expands the model to three new schools. The Existing Redshirt Institutions (ERIs) help mentor and train the new Student Success Partners (SSPs), …

Creating The Fleet Maker - Lessons Learned From The First Series Of Workshops On Maker Concepts For Active Duty Personnel, Karina Arcaute, Michel Albert Audette, Vukica Jovanovic, Anthony Dean, Dipankar Ghosh

STEMPS Faculty Publications

The US Navy has supported research related to the 3D printing or Additive Manufacturing area for more than 20 years. More recently, efforts like the Print the Fleet initiative and Marine Makers are exploring ways to design and create solutions to future problems with the possibility of reducing maintenance costs, increasing equipment readiness, and improving combat effectiveness. The Creating the Fleet Maker project is an effort supported by the Navy and Marine Corps Science, Technology, Engineering and Mathematics Education, Outreach and Workforce Program of the Office of Naval Research. It examines the concept of making in order to develop skills …

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, …

Improving Introductory Computer Science Education With Draco, Mike Dongyub Ryu

Master's Theses

Today, many introductory computer science courses rely heavily on a specific programming language to convey fundamental programming concepts. For beginning students, the cognitive capacity required to operate with the syntactic forms of this language may overwhelm their ability to formulate a solution to a program.

We recognize that the introductory computer science courses can be more effective if they convey fundamental concepts without requiring the students to focus on the syntax of a programming language. To achieve this, we propose a new teaching method based on the Design Recipe and Code Outlining (DRaCO) processes. Our new pedagogy capitalizes on the …

Redshirt In Engineering: A Model For Improving Equity And Inclusion, Donna C. Llewellyn, Ann Delaney, Janet Callahan

Materials Science and Engineering Faculty Publications and Presentations

The NSF-funded Redshirt in Engineering Consortium was formed in 2016 with the goal of enhancing the ability of academically talented but underprepared students coming from low-income backgrounds to successfully graduate with engineering degrees. The Consortium takes its name from the practice of redshirting in college athletics, with the idea of providing an extra year and support to help promising engineering students complete a bachelor’s degree. The Consortium builds on the success of three existing “academic redshirt” programs and expands the model to three new schools. The Existing Redshirt Institutions (ERIs) help mentor and train the new Student Success Partners (SSP), …

Educators’ Perceptions Of Integrated Stem: A Phenomenological Study, Brian K. Sandall, Darrel L. Sandall, Abram L. J. Walton

Journal of STEM Teacher Education

The study utilized a semistructured interview approach to identify phenomena that are related to integrated STEM education by addressing the question: What are the critical components of an integrated STEM definition and what critical factors are necessary for an integrated STEM definition’s implementation? Thirteen expert practitioners were identified and interviewed. The interviews were transcribed and analyzed for content in three different ways: by person, by interview question, and across all interviews using exploratory data analysis methods. Ten identified phenomena were grouped into two classes: structural implementation phenomena and interpersonal implementation phenomena. The structural implementation phenomena were: subject integration, project-based learning, …

Making Connections: Evaluation Of A Professional Development Program For Teachers Focused On Stem Integration, Judy Lambert, Carmen Cioc, Sorin Cioc, Dawn Sandt

Journal of STEM Teacher Education

This article reports on a 2-year evaluation of a STEM integration professional development (PD) program for 40 math, science, and special education teachers in Grades 5–9 from a large Midwestern public school district. The National Research Council’s framework for integrated STEM education (Honey, Pearson, & Schweingruber, 2014) was used to explain the goals, outcomes, nature and scope, and implementation of the program. Teachers were measured on their growth in STEM content knowledge, technology integration, teaching confidence, pedagogical beliefs, and impact of PD. Increases resulted in all these areas with statistically significant improvements in most of them, particularly in Year 2. …

Motivational Decline And Recovery In Higher Education Stem Courses, Anna M. Young, Paul J. Wendel, Joan M. Esson, Kathryn M. Plank

Education Faculty Scholarship & Creative Works

Decline in student motivation is a concern for STEM education, especially for underrepresented groups in the sciences. Using the Science Motivation Questionnaire II, 41 foundational STEM courses were surveyed at the beginning and end of each semester in an academic year at a small primarily undergraduate university. Significant pre- to post-semester declines were observed in each of five measured motivational factors (Intrinsic motivation, Career motivation, Self determination, Self-efficacy, and Grade motivation), with effect sizes ranging from 0.21 to 0.41. However, in the second semester pre-survey, four motivational factors rebounded, including three returning to initial levels, suggesting that the observed motivational …

Creating A Stem Identity: Investment With Return, Janet Callahan, Patricia Pyke, Susan Shadle, R. Eric Landrum

R. Eric Landrum

Establishing a strong STEM (science, technology, engineering and mathematics) identity at Boise State University, a metropolitan campus with approximately 3,655 undergraduate STEM students and a total undergraduate enrollment of approximately 19,042 (16,136 FTE) has been an important step toward creating a climate conducive to facilitating fundamental change. Examples of such change include building collaborations among faculty within and across departments, establishing the identity of students as part of a community beyond their chosen major, improving the efficiency and effectiveness of university systems, and perhaps most importantly, developing a framework to think deliberately about ways to effect change. This paper is …

Exploring Possible Humanoids On Mars: A Lesson Designed For Twice-Exceptional Gifted Students, Younis Al-Hassan, Marie Adebiyi, Shehreen Iqtadar, Dana L. Atwood-Blaine

Journal of STEM Arts, Crafts, and Constructions

This practical article presents a classroom-tested pedagogical plan to assist instructors in teaching thinking skills to gifted students with disabilities in the context of science. The lesson, which focused on using Edward de Bono thinking skills to explore humanoid images that appear in NASA photos, provided accommodations for students with hearing impairment, along with disabilities associated with short and long-term memory. The instructional design team presented the arts-integrated activity of drawing scenes showing possible ways the anomalies could have been generated, and an interactive electronic game using iPads that asked participants to gather needed items for a trip to Mars. …

Faces On Mars Lesson: Incorporating Art, Thinking Skills, And Disability Differentiation Strategies For Twice-Exceptional Gifted Students, Marine Pepanyan, Mike Fisher, Audrey Wallican-Green

Journal of STEM Arts, Crafts, and Constructions

This practical article provides an example art-integrated lesson designed to serve gifted students with the exceptionalities of deficits in executive functioning and in impulse control. The lesson used the mysterious science problem of possible life on Mars as evidenced by anomalous faces in NASA photographs as a stimulus for practice in processing information through three Edward de Bono CoRT Thinking Skills. This lesson demonstrated differentiating instruction for gifted students with disabilities that included hands-on and peer-involved exercises. Examples of student work showing comic book-like stories about the famous Face on Mars are included, along with student responses to the thinking …

Exploring Mars Mysteries In Nasa Photographs: Could Some Images Be Animal Skeletons?, Laura Meyer, Rob Griffin, Dan Butler

Journal of STEM Arts, Crafts, and Constructions

The NASA photographs containing what appear to be animal skeletons have created a mystery that remains unsolved today. Because they generate questions and inquiries in many arenas, the animal skeleton pictures were used to help gifted students critically think about how these structures were created. Several additional exceptionalities common in most groups of students, including attention deficit disorder with and without hyperactivity and difficulties in executive functioning, were addressed through the lesson design. The exceptionalities were addressed through methods that could be used in any classroom while using the Mars Animal Skeletons to motivate and engage students. Incorporation of teaching …

Is There Water On Mars? A De Bono Skills Mystery For Twice-Exceptional Gifted Students, Christopher Cox, Megan Sova-Tower, Nathan Wear

Journal of STEM Arts, Crafts, and Constructions

Is there water on Mars? Gifted adult graduate students, some of whom represented the learner exceptionalities of Autism Spectrum Disorder and Slow Information Processing Speed, were asked to explore this mystery by applying Edward de Bono’s CoRT thinking skills of “Aims, Goals, and Objectives,” “Select,” and “Planning” to photographs of Mars landforms. Once they had determined the likelihood that the pictures depicted water on Mars, students were asked to develop three-dimensional models with recycled materials. Analysis of the findings revealed that in utilizing the de Bono CoRT thinking skills, students were able to identify sixteen different categories. Student responses had …

Exploring Animal-Like Images In Nasa Photos Of Mars Using De Bono’S Cort Thinking Skills: Alternatives, Possibilities, And Choices, Compare, And Decisions, Kurt M. J. Devore, Allyson Rafanello, Nicholas Rafanello

Journal of STEM Arts, Crafts, and Constructions

The use of de Bono’s CoRT Thinking Skills of “Alternatives, Possibilities, and Choices,” “Compare,” and “Decisions” create opportunities for students to critically think about ideas using a new lens of thinking. The lesson was designed to accommodate twice-exceptional students, gifted students with the disabilities of dyslexia and/or dyscalculia, through three of the de Bono’s strategies integrated with activities. Gifted graduate students in this lesson were presented with an opportunity to explore and analyze the animal-like images from Mars using the three CoRT thinking skills. The photographs used in this lesson were provided by the Jet Propulsion Laboratory (JPL) and the …

Mars Mysteries: Landform Pictograms, James Zabel, Mathieu Castello, Fiddelis Blessings Makaula

Journal of STEM Arts, Crafts, and Constructions

Graphic organizers are a way for teachers to accommodate students with disabilities such as poor memory or emotional disorders. This technique allows organization of thoughts and visual representation of relationships between ideas and facts. Indeed, poor memory affects students’ reflection and retention of information while emotional disorders can cause a lack of focus in the classroom. Accommodations for students with these disabilities is important because students with emotional disorders may experience social isolation, which in turn may negatively affect their levels of academic achievement. Twenty high-achieving doctoral students participated in a teaching experience designed to introduce gifted students with learning …

Exploring Mars Glass Tube Anomalies, Kimberly S. Mccoy-Parker, Gary Benda, Stanley Ebede

Journal of STEM Arts, Crafts, and Constructions

This practical article provides information regarding the use of Edward de Bono CoRT thinking skills to broaden and enhance critical and creative thinking skills in twice exceptional students using the Mars Glass Tube Mystery as a vehicle to explore possibilities and spark creative thinking. The exceptionalities addressed in this lesson plan are gifted learners who have one or more additional exceptionalities of slow processing speed and / or poor fine motor skills. Throughout the lesson, the Mars Mystery photos leveraged both prior knowledge and student curiosity to create an engaging activity for the participants. CoRT thinking skills provided a robust …

How Did Those Get There? Exploring Structures And Pyramids On Mars, Abby Rau, Brooke Becker

Journal of STEM Arts, Crafts, and Constructions

The makeup of students in our classrooms is becoming more diverse. With this change comes the need for educators to provide accommodations for students and to employ a range of instructional strategies. Arts integration in the content areas is one way to engage students and to encourage individual expression. The purpose of this practical article is to highlight a lesson incorporating the arts and Edward de Bono’s CoRT Thinking Skills to support twice exceptional learners, specifically English Language Learners and students with Attention Deficit Disorder/Attention Deficit Hyperactivity Disorder. Doctoral students considered the formation of pyramids and structures on Mars using …

Spotlight On Edward De Bono Thinking Skills And Twice-Exceptional Gifted Learners Applied To Mars Mysteries In Nasa Photographs, Ksenia S. Zhbanova, Audrey C. Rule

Journal of STEM Arts, Crafts, and Constructions

This editorial provides background information concerning the lessons presented in the eight practical articles of this issue. All of these lessons address Mars Mysteries, anomalous features found in NASA photographs of the Martian surface. These unusual and thought-provoking features are explored by using Edward de Bono CoRT thinking skills to broaden perceptions enhancing critical and creative thinking. The lessons are intended to explore possibilities, but not to provide a definite final answer as to what the anomalies represent. These lessons were designed as enrichment lessons for gifted learners and support Renzulli’s Type I general exploratory experiences that expose students to …

Anatomy Of Stem Teaching In North American Universities, Paul J. Wendel, Joan M. Esson, Kathryn M. Plank, Anna M. Young

Education Faculty Scholarship & Creative Works

A large body of evidence demonstrates that strategies that promote student interactions and cognitively engage students with content lead to gains in learning and attitudinal outcomes for students in science, technology, engineering, and mathematics (STEM) courses. Many educational and governmental bodies have called for and supported adoption of these student centered strategies throughout the undergraduate STEM curriculum.

Choosing Stem College Majors: Exploring The Role Of Pre-College Engineering Courses, L. Allen Phelps, Eric M. Camburn, Sookweon Min

Journal of Pre-College Engineering Education Research (J-PEER)

Despite the recent policy proclamations urging state and local educators to implement integrated science, technology, engineering, and mathematics (STEM) curricula, relatively little is known about the role and impact of pre-college engineering courses within these initiatives. When combined with appropriate mathematics and science courses, high school engineering and engineering technology (E&ET) courses may have the potential to provide students with pre-college learning experiences that encourage them to pursue STEM college majors. Our central research question was: What is the nature and extent of any relationship between high school E&ET course completion and subsequent selection of a STEM major in a …