Open Access. Powered by Scholars. Published by Universities.®

Science and Mathematics Education Commons

Open Access. Powered by Scholars. Published by Universities.®

Curriculum and Instruction

Teaching & Learning Faculty Publications

Articles 1 - 13 of 13

Full-Text Articles in Science and Mathematics Education

Elementary Preservice Teachers’ Perceptions Of Modeling As A Tool For Instruction, Ginger S. Watson, Mary Enderson Mar 2019

Elementary Preservice Teachers’ Perceptions Of Modeling As A Tool For Instruction, Ginger S. Watson, Mary Enderson

Teaching & Learning Faculty Publications

As the standards movement continues to gain momentum in U.S. schools, preservice and in-service teachers need greater knowledge in mathematical modeling to engage PK-12 students in such practices. This case-based research study investigated the perceptions and understandings of modeling for 76 entry-level, preservice elementary teachers enrolled in a mathematics methods course at a mid-Atlantic university. Participants were prompted to define modeling and its application to classroom instruction through open-response questions administered in an online survey. A case-based, phenomenological method was used to code and analyze responses. Most preservice teachers expressed a very limited definition or understanding of modeling or how …

Go to article

A Case Study Of A Stem Teacher’S Development Of Tpack In A Teacher Preparation Program, Mary C. Enderson, Ginger S. Watson Mar 2019

A Case Study Of A Stem Teacher’S Development Of Tpack In A Teacher Preparation Program, Mary C. Enderson, Ginger S. Watson

Teaching & Learning Faculty Publications

This case study involved researching pre-service secondary STEM teachers’ development of TPACK by use of modeling & simulation applications. The main research question focused on how do self-reported TPACK measures align with demonstrated TPACK knowledge and skills. The study design was qualitative and included five secondary STEM pre-service teachers who were completing their program of study and teaching lessons in the field with secondary students. This particular brief paper reports on one of the pre-service STEM teachers in this study. Coding and analysis were carried out to search for characteristics of tasks that support development of TPACK in future teachers. …

Go to article

Mobile Learning And Cognition, Helen Crompton, Diane Burke Dec 2018

Mobile Learning And Cognition, Helen Crompton, Diane Burke

Teaching & Learning Faculty Publications

The rise of mobile learning in schools during the past decade has led to promises about its power to extend and enhance student cognitive development – for example, by providing greater pedagogical opportunities for students (Mifsud, 2014). However, others claim that mobile devices are most often used to support traditional pedagogical approaches whereby students only passively consume content (Cochrane & Antonczak, 2014; Frohberg, Goth & Schwabe, 2009; Rushby, 2012). As schools invest resources in providing students with opportunities to use mobile devices as tools for learning, it is important to critically examine their use in practice.

Go to article

Technologies To Enhance And Extend Children's Understanding Of Geometry: A Configurative Thematic Synthesis Of The Literature, Helen Crompton, Melva R. Grant, Khitam Y. H. Shraim Feb 2018

Technologies To Enhance And Extend Children's Understanding Of Geometry: A Configurative Thematic Synthesis Of The Literature, Helen Crompton, Melva R. Grant, Khitam Y. H. Shraim

Teaching & Learning Faculty Publications

Empirical evidence indicates that students are not learning geometry with relational understanding of the concepts. Studies have shown that digital technologies can support students in mathematics. The purpose of this study was to find which technologies and technological affordances are specific to learners of geometry. This paper presents the results of a configurative thematic synthesis of empirical studies and theoretical papers to show that dynamic geometry environments (DGEs: including 3D DGEs) and logobased environments were the main types of technologies used to support geometry learners. The results of this study also reveal that there are five main technological supports provided …

Go to article

Exploring Newton's Laws Of Motion With A Balloon Car, Sarah Ferguson, Tia Chavis, Jenna Brown, Teandra James, David Youssef Jan 2018

Exploring Newton's Laws Of Motion With A Balloon Car, Sarah Ferguson, Tia Chavis, Jenna Brown, Teandra James, David Youssef

Teaching & Learning Faculty Publications

The article presents a lesson plan for middle education which teaches concepts to explore Newton's first, second and third laws of motion.

Go to article

Using Mobile Learning To Supports Students' Understanding In Geometry: A Design-Based Research Study, Helen Crompton Jan 2017

Using Mobile Learning To Supports Students' Understanding In Geometry: A Design-Based Research Study, Helen Crompton

Teaching & Learning Faculty Publications

The use of mobile learning offers new affordances to teaching and learning. In this study, students from two fourth grade classes used iPads in dyads and groups to learn about angle. Using a design-based research methodology, which included observations, video, researcher journals, and artefact collection, a local instruction theory was developed on how students can learn about angle concepts through mobile learning activities. The local instruction theory is comprised of two components: (a) a seven lesson curriculum for 4th grade students on developing an early understanding of angle utilizing a mobile learning approach, and (b) additions to the scholarly theories, …

Go to article

Using Precision In Stem Language: A Qualitative Look, Mary M. Capraro, Ali Bricer, Melva R. Grant, Yvonna S. Lincoln Jan 2017

Using Precision In Stem Language: A Qualitative Look, Mary M. Capraro, Ali Bricer, Melva R. Grant, Yvonna S. Lincoln

Teaching & Learning Faculty Publications

Teachers need to develop a variety of pedagogical strategies that can encourage precise and accurate communication - an extremely important 21st century skill. Precision with STEM oral language is essential. Emphasizing oral communication with precise language in combination with increased spatial skills with modeling can improve the chances of success in STEM courses and later in making STEM career choices. The participants were 14 middle and high school teachers who participated in a week of professional development (PD). The Aural/Spatial Interactions and Invariant Components of Vocabulary for STEM Content Area Specialists (AS-STEM) was administered to teacher groups to examine how …

Go to article

An Examination Of An Online Tutoring Program's Impact On Low-Achieving Middle School Students' Mathematics Achievement, Shanan Chappell,, Pamela Arnold, John Nunnery, Melva R. Grant Jan 2015

An Examination Of An Online Tutoring Program's Impact On Low-Achieving Middle School Students' Mathematics Achievement, Shanan Chappell,, Pamela Arnold, John Nunnery, Melva R. Grant

Teaching & Learning Faculty Publications

The purpose of this mixed methods study was to determine the impact of synchronous online tutoring services on struggling middle school students’ mathematics achievement. The online tutoring was provided as a response to intervention (RTI) Tier 3 support (intensive, individualized intervention) in schools implementing a school-wide mathematics program that addresses Tier 1 (high-quality classroom instruction) and Tier 2 (small group interventions). We employed quasi-experimental, within- and between-group designs to examine impacts for 119 students in two schools to measure the tutoring’s impact on mathematics assessment scores. We also conducted qualitative analyses of student and tutor postsession commentary. The findings suggest …

Go to article

Research Trends In The Use Of Mobile Learning In Mathematics, Helen Crompton, Diane Burke Jan 2015

Research Trends In The Use Of Mobile Learning In Mathematics, Helen Crompton, Diane Burke

Teaching & Learning Faculty Publications

The use of mobile learning in education is growing at an exponential rate. To best understand how mobile learning is being used, it is crucial to gain a collective understanding of the research that has taken place. This research was a systematic review of 36 studies in mobile learning in mathematics from the year 2000 onward. Eight new findings emerged: (1) The primary purpose of most studies was to focus on evaluating mobile learning. (2) Case studies and experimental design were the main research methods. (3) Most studies report positive learning outcomes; (4) Mobile phones were the mobile device used …

Go to article

Understanding Angle And Angle Measure: A Design-Based Research Study Using Context Aware Ubiquitous Learning, Helen Crompton Jan 2015

Understanding Angle And Angle Measure: A Design-Based Research Study Using Context Aware Ubiquitous Learning, Helen Crompton

Teaching & Learning Faculty Publications

Mobile technologies are quickly becoming tools found in the educational environment. The researchers in this study use a form of mobile learning to support students in learning about angle concepts. Design-based research is used in this study to develop an empirically-substantiated local instruction theory about students' develop of angle and angle measure. This local instruction theory involves real-world connections and mobile technologies through a sub category of mobile learning called context-aware ubiquitous learning. Through a process of anticipation, enactment, evaluation, and revision, the local instruction theory was developed to include a theoretical contribution of how students come to understand angle …

Go to article

Designing Playful Games And Applications To Support Science Centers Learning Activities, Michail N. Giannakos, David Jones, Helen Crompton, Nikos Chrisochoides Jun 2014

Designing Playful Games And Applications To Support Science Centers Learning Activities, Michail N. Giannakos, David Jones, Helen Crompton, Nikos Chrisochoides

Teaching & Learning Faculty Publications

In recent years there has been a renewed interest on science, technology, engineering, and mathematics (STEM) education. Following this interest, science centers' staff started providing technology enhanced informal STEM education experiences. The use of well-designed mobile and ubiquitous forms of technology to enrich informal STEM education activities is an essential success factor. The goal of our research is to investigate how technology applications can be better used and developed for taking full advantage of the opportunities and challenges they provide for students learning about STEM concepts. In our approach, we have conducted a series of interviews with experts from science …

Go to article

Polynomial Calculus: Rethinking The Role Of Calculus In High Schools, William Crombie, Melva R. Grant Jul 2012

Polynomial Calculus: Rethinking The Role Of Calculus In High Schools, William Crombie, Melva R. Grant

Teaching & Learning Faculty Publications

Access to advanced study in mathematics, in general, and to Calculus, in particular, depends in part on the conceptual architecture of these knowledge domains, and in this paper we outline an alternative architecture. Our general strategy is to separate advanced concepts from the particular advanced techniques used in their definition and exposition. This alternative architecture, thus, affords access to advanced concepts from an elementary standpoint to a larger group of learners than is presently accomplished. In the case of the Calculus we develop the beginning concepts of the Differential and Integral Calculus using only concepts and skills found in secondary …

Go to article

Examining Sociocultural Contexts Of Classrooms To Foster Student Mathematical Discourse And Learning, Melva R. Grant Jan 2010

Examining Sociocultural Contexts Of Classrooms To Foster Student Mathematical Discourse And Learning, Melva R. Grant

Teaching & Learning Faculty Publications

Mathematics learning and teaching are optimized in classrooms when reform-oriented culture (ROC) is present. This report presents a case study that illustrates how ROC manifested and influenced mathematical Discourses in one sixth-grade classroom. The data was drawn from a study that addressed the question: How do classroom interactions influence mathematical Discourses? The study used interpretive methodology for analysis. One finding was that classroom boundary interactions either enhanced or hindered mathematical Discourses dependent upon sociocultural context alignments. An implication of this research is when “effective” learning and/or teaching strategies are identified, “effective” implementation may require paying close attention to sociocultural context …

Go to article