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Science and Mathematics Education Commons™
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- Problem-based learning (6)
- Engineering design (3)
- Engineering education (3)
- Mathematics education (3)
- Professional development (3)
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- Teacher education (3)
- Elementary education (2)
- K-12 education (2)
- Middle school (2)
- Preservice teachers (2)
- Project-based learning (2)
- Science education (2)
- 2D modeling (1)
- 3D fabrication (1)
- Active learning (1)
- And Multilevel Structural Equation Modeling (1)
- Anecdote circles (1)
- Assessment (1)
- Case study (1)
- Competence (1)
- Computational literacy (1)
- Computer-based learning (1)
- Culturally responsive pedagogy (1)
- Curriculum development (1)
- Curriculum evaluation (1)
- Design education (1)
- Design-based learning (1)
- Digital fabrication (1)
- EiE (1)
- Elementary (1)
Articles 1 - 20 of 20
Full-Text Articles in Science and Mathematics Education
Eipeck: Assessing Educators’ Pedagogical Content Knowledge For Engineering Integration In K-12, Pilar Pazos, Francisco Cima Cohuo, Jennifer Kidd, Kristie Gutierrez, Krishnanand Kaipa, Orlando Ayala
Eipeck: Assessing Educators’ Pedagogical Content Knowledge For Engineering Integration In K-12, Pilar Pazos, Francisco Cima Cohuo, Jennifer Kidd, Kristie Gutierrez, Krishnanand Kaipa, Orlando Ayala
Journal of Pre-College Engineering Education Research (J-PEER)
Global efforts are underway to include engineering in pre-college curricula. In the USA, this pursuit led to the inclusion of engineering content in the most recent version of the Next Generation Science Standards that guide K-12 science. As these standards become part of the K-12 curriculum, teachers face the challenge of gaining basic engineering literacy, while developing the associated inclusive pedagogies necessary to integrate engineering content into their classrooms. In this context, teacher preparation programs can benefit from easy-to-implement tools that measure preservice teachers’ readiness to integrate engineering content in their future classrooms. This work describes the development and validation …
The Intersection Of Culturally Responsive Pedagogy And Engineering Design In Secondary Stem, Mariam Manuel, Jessica Gottlieb, Gina Svarovsky, Rebecca Hite
The Intersection Of Culturally Responsive Pedagogy And Engineering Design In Secondary Stem, Mariam Manuel, Jessica Gottlieb, Gina Svarovsky, Rebecca Hite
Journal of Pre-College Engineering Education Research (J-PEER)
The instructional practices of the engineering design process and culturally responsive pedagogy have each garnered national attention and multiple decades of research. Findings from the respective literature bases call for educators and policymakers to integrate these two pedagogical approaches into K-12 classroom instruction. Scholars have argued that this integration would improve student engagement and academic achievement. There is a significant amount of research that supports the positive student outcomes associated with each approach, yet there remains a dearth of literature that addresses the integration of these two practices into the science and mathematics content areas. The movement around educational reform …
Enhancing Preservice Teachers’ Intention To Integrate Engineering Through A Cross-Disciplinary Model, Francisco Cima, Pilar Pazos, Jennifer Kidd, Kristie Gutierrez, Stacie Ringleb, Orlando Ayala, Krishnanand Kaipa
Enhancing Preservice Teachers’ Intention To Integrate Engineering Through A Cross-Disciplinary Model, Francisco Cima, Pilar Pazos, Jennifer Kidd, Kristie Gutierrez, Stacie Ringleb, Orlando Ayala, Krishnanand Kaipa
Journal of Pre-College Engineering Education Research (J-PEER)
Although elementary educators recognize the importance of integrating engineering in their classrooms, many feel challenged and unprepared to teach engineering content. The absence of effective engineering instruction in teacher preparation programs leaves future educators unprepared for this challenge. Ed+gineering is an NSF-funded cross-disciplinary model between education and engineering aimed at increasing preservice teachers’ preparation, confidence, and intention to integrate engineering into their teaching. Ed+gineering partners education and engineering students in cross-disciplinary teams within the context of their respective university courses. As part of their coursework, the teams plan and deliver culturally responsive engineering lessons to elementary school students under the …
Knowing The World Through Mathematics: The Interconnections Between Social Justice And Mathematics For Preservice Mathematics Teachers, Gabrielle Gagnon
Knowing The World Through Mathematics: The Interconnections Between Social Justice And Mathematics For Preservice Mathematics Teachers, Gabrielle Gagnon
The Journal of Purdue Undergraduate Research
No abstract provided.
The Effect Of Teacher Professional Development On Implementing Engineering In Elementary Schools, Teresa Porter, Meg E. West, Rachel L. Kajfez, Kathy L. Malone, Karen E. Irving
The Effect Of Teacher Professional Development On Implementing Engineering In Elementary Schools, Teresa Porter, Meg E. West, Rachel L. Kajfez, Kathy L. Malone, Karen E. Irving
Journal of Pre-College Engineering Education Research (J-PEER)
Increased attention on the implementation of engineering education into elementary school classrooms aims to start preparing students early for potential engineering careers. In order to efficiently and effectively add engineering concepts to the curriculum, appropriate development and facilitation of engineering design challenges are required. Therefore, professional development programs are necessary to educate teachers about engineering and how to adequately teach it. This paper explores the effects of an engineering professional development program for practicing teachers. The program included training elementary teachers about how to implement units from Engineering is Elementary (EiE) by the Science Museum of Boston into their classes. …
Elementary Teachers’ Positive And Practical Risk-Taking When Teaching Science Through Engineering Design, Jeffrey Radloff, Brenda Capobianco, Annie Dooley
Elementary Teachers’ Positive And Practical Risk-Taking When Teaching Science Through Engineering Design, Jeffrey Radloff, Brenda Capobianco, Annie Dooley
Journal of Pre-College Engineering Education Research (J-PEER)
This study examines the perspectives of three generations of elementary teachers learning to teach science using engineering design and the risks associated with implementing this innovative type of reform-based science instruction. Data were gathered using semi-structured interviews, classroom observations, and teacher reflections. Data analysis entailed open coding and document analysis. The findings indicated that there were four types of perceived risks: practical, pedagogical, conceptual, and personal. First-generation teachers exhibited conceptual risk-taking behavior, while second- and third-generation teachers reported practical, pedagogical, and personal risks. Benefits of risk-taking included increased student engagement in science, improved self-confidence in teaching science, and greater teacher …
Why Teach With Pbl? Motivational Factors Underlying Middle And High School Teachers’ Use Of Problem-Based Learning, Huei-Chen Lee, Margaret R. Blanchard
Why Teach With Pbl? Motivational Factors Underlying Middle And High School Teachers’ Use Of Problem-Based Learning, Huei-Chen Lee, Margaret R. Blanchard
Interdisciplinary Journal of Problem-Based Learning
This quantitative study examined factors underlying middle and high school teachers’ choices about whether to use problem-based learning (PBL). Survey items measured respondents’ perceived competence, autonomy, and relatedness, and the value and costs they placed on implementing PBL. Teachers who have taught with PBL (n = 126) had significantly more formal PBL professional development, higher levels of perceived competence and value for this pedagogy, perceived more support from peers, and perceived lower costs than did the non–PBL use teachers (n = 30). Findings highlight the importance of formal PBL professional development in increasing teachers’ intention to implement PBL …
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
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 …
Exploring Problem-Based Learning For Middle School Design And Engineering Education In Digital Fabrication Laboratories, Monica M. Chan, Paulo Blikstein
Exploring Problem-Based Learning For Middle School Design And Engineering Education In Digital Fabrication Laboratories, Monica M. Chan, Paulo Blikstein
Interdisciplinary Journal of Problem-Based Learning
This is a research study of design and engineering classes that use a problem-based learning (PBL) approach in digital fabrication makerspaces in two middle schools. In these studies, teachers employ a PBL approach and provide an ill-structured problem scenario to facilitate design and engineering lessons in the FabLab (fabrication laboratory). Students in each school tackled different challenges that they defined for themselves in groups. This study provides examples of student-student interactions separated into key themes—defining specifications with teammates, personal exploration, and communication about discoveries. This study also provides examples of teacher-student interactions, and themes include demonstrations with tangible objects, discussing …
Tinkering With Logo In An Elementary Mathematics Methods Course, Keri Duncan Valentine
Tinkering With Logo In An Elementary Mathematics Methods Course, Keri Duncan Valentine
Interdisciplinary Journal of Problem-Based Learning
With an increased push to integrate coding and computational literacy in K–12 learning environments, teacher educators will need to consider ways they might support preservice teachers (PSTs). This paper details a tinkering approach used to engage PSTs in thinking computationally as they worked with geometric concepts they will be expected to teach in K–5. Experiences programming in Logo to construct authentic artifacts in the form of two-dimensional geometric graphics not only supported PSTs’ understanding of core geometric and spatial concepts, but also helped them to make connections between mathematics and computational literacy. Artifacts and discourse are discussed as they relate …
The Iterative Development And Use Of An Online Problem-Based Learning Module For Preservice And Inservice Teachers, Peter Rillero, Laurie Camposeco
The Iterative Development And Use Of An Online Problem-Based Learning Module For Preservice And Inservice Teachers, Peter Rillero, Laurie Camposeco
Interdisciplinary Journal of Problem-Based Learning
Teachers’ problem-based learning knowledge, abilities, and attitudes are important factors in successful K–12 PBL implementations. This article describes the development and use of a free, online module entitled Design a Problem-Based Learning Experience. The module production, aligned with theories of andragogy, was a partnership between the recipients of a grant using PBL to enhance English language learner education and the Sanford Inspire Program. A multistage evaluation design was used in the iterative process of module creation. Starting with an initial white paper, the module’s conceptualization, development, pilot testing, and refinement are described, along with the current use statistics. The URL …
Anticipating Change: An Exploratory Analysis Of Teachers’ Conceptions Of Engineering In An Era Of Science Education Reform, Tesha Sengupta-Irving, Janet Mercado
Anticipating Change: An Exploratory Analysis Of Teachers’ Conceptions Of Engineering In An Era Of Science Education Reform, Tesha Sengupta-Irving, Janet Mercado
Journal of Pre-College Engineering Education Research (J-PEER)
While integrating engineering into science education is not new in the United States, technology and engineering have not been well emphasized in the preparation and professional development of science teachers. Recent science education reforms integrate science and engineering throughout K–12 education, making it imperative to explore the conceptions teachers hold of engineering as a discipline, and as an approach to teaching. This analysis draws on focus group interviews with practicing secondary teachers (n = 12) conducted during a professional development seminar. The goals of the seminar were to present engineering as a heterogeneity of practices and inquiries organized to …
Undergraduate Engineers And Teachers: Can Students Be Both?, Malinda S. Zarske, Maia L. Vadeen, Janet Y. Tsai, Jacquelyn F. Sullivan, Denise W. Carlson
Undergraduate Engineers And Teachers: Can Students Be Both?, Malinda S. Zarske, Maia L. Vadeen, Janet Y. Tsai, Jacquelyn F. Sullivan, Denise W. Carlson
Journal of Pre-College Engineering Education Research (J-PEER)
Today’s college-aged students are graduating into a world that relies on multidisciplinary talents to succeed. Engineering college majors are more likely to find jobs after college that are outside of STEM (science, technology, engineering, and mathematics) fields, including jobs in healthcare, management, and social services. A survey of engineering undergraduate students at the University of Colorado Boulder in November 2012 indicated a desire by students to simultaneously pursue secondary teacher licensure alongside their engineering degrees: 25 percent ‘‘agreed’’ or ‘‘strongly agreed’’ that they ‘‘would be interested in earning grades 7–12 science or math teaching licenses while [they] earn [their] engineering …
Developing Teacher Competencies For Problem-Based Learning Pedagogy And For Supporting Learning In Language-Minority Students, Peter Rillero, Mari Koerner, Margarita Jimenez-Silva, Joi Merritt, Wendy J. Farr
Developing Teacher Competencies For Problem-Based Learning Pedagogy And For Supporting Learning In Language-Minority Students, Peter Rillero, Mari Koerner, Margarita Jimenez-Silva, Joi Merritt, Wendy J. Farr
Interdisciplinary Journal of Problem-Based Learning
Teachers need to be able to design and implement problem-based learning (PBL) experiences to help students master the content and the processes in new mathematics and science education standards. Due to the changed population of learners within schools, it is also critically important that teachers in the elementary grades have the abilities to work effectively with English language learners (ELL). This article discusses the implementation of a major initiative by our teachers college to achieve both of these goals through Problem-Based Enhanced Language Learning (PBELL), which combines PBL, enhanced opportunities for language, and ELL methods. The implementation began with a …
Problem-Based Learning In K–8 Mathematics And Science Education: A Literature Review, Joi Merritt, Mi Yeon Lee, Peter Rillero, Barbara M. Kinach
Problem-Based Learning In K–8 Mathematics And Science Education: A Literature Review, Joi Merritt, Mi Yeon Lee, Peter Rillero, Barbara M. Kinach
Interdisciplinary Journal of Problem-Based Learning
This systematic literature review was conducted to explore the effectiveness of problem-based and project-based learning (PBL) implemented with students in early elementary to grade 8 (ages 3–14) in mathematics and science classrooms. Nine studies met the following inclusion criteria: (a) focus on PBL, (b) experimental study, (c) kindergarten to grade 8 level, and (d) focus on mathematics or science content. For these studies, we examined: the definitions of PBL used, the components of PBL explicitly identified as salient to student learning, and the effectiveness of PBL. This review found that although there is no consistent definition of PBL, PBL is …
Stem High School Teachers’ Views Of Implementing Pbl: An Investigation Using Anecdote Circles, Aimée L. Dechambeau, Susan E. Ramlo
Stem High School Teachers’ Views Of Implementing Pbl: An Investigation Using Anecdote Circles, Aimée L. Dechambeau, Susan E. Ramlo
Interdisciplinary Journal of Problem-Based Learning
Problem-based learning (PBL) has been gaining in popularity, especially within the context of STEM-based (science, technology, engineering, and mathematics) schools. Program assessments for these schools typically focus on student standardized test scores rather than the needs of the teachers. This study utilized anecdote circles, storytelling via moderated group discussions, to investigate teachers’ needs related to developing and implementing authentic, interdisciplinary PBL activities in an urban, public STEM high school. Teacher experiences and viewpoints were explored within three broad themes: assessment; coaching and training; and authentic learning. The analyses provide insights for transitioning a school for effective PBL implementation as well …
A Framework For Problem-Based Learning: Teaching Mathematics With A Relational Problem-Based Pedagogy, Carmel Schettino
A Framework For Problem-Based Learning: Teaching Mathematics With A Relational Problem-Based Pedagogy, Carmel Schettino
Interdisciplinary Journal of Problem-Based Learning
One recommendation for encouraging young women and other underrepresented students in their mathematical studies is to find instructional methods, such as problem-based learning (PBL), that allow them to feel included in the learning process. Using a more relationally centered pedagogy along with more inclusive instructional methods may be a way to foster an interest in studying mathematics in the fields of science, technology, engineering, and mathematics. However, many mathematics teachers are at a loss in not only how to instruct with PBL methods but also how to create the environment that encourages optimal learning.
Building Up Stem: An Analysis Of Teacher-Developed Engineering Design-Based Stem Integration Curricular Materials, Siddika Selcen Guzey, Tamara J. Moore, Michael Harwell
Building Up Stem: An Analysis Of Teacher-Developed Engineering Design-Based Stem Integration Curricular Materials, Siddika Selcen Guzey, Tamara J. Moore, Michael Harwell
Journal of Pre-College Engineering Education Research (J-PEER)
Improving K–12 Science, Technology, Engineering, and Mathematics (STEM) education has a priority on numerous education reforms in the United States. To that end, developing and sustaining quality programs that focus on integrated STEM education is critical for educators. Successful implementation of any STEM program is related to the curriculum materials used. Educators increasingly recognize the challenge of finding quality curriculum materials for integrated STEM education. In this study, 48 teachers participated in a year-long professional development program on STEM integration, and they designed 20 new engineering design-based STEM curriculum units. Each STEM curriculum unit includes an engineering challenge in which …
Comparing Technology-Supported Teacher Education Curricular Models For Enhancing Statistical Content Knowledge, Dionne Cross Francis, Rick Hudson, Crystal Vesperman, Arnulfo Perez
Comparing Technology-Supported Teacher Education Curricular Models For Enhancing Statistical Content Knowledge, Dionne Cross Francis, Rick Hudson, Crystal Vesperman, Arnulfo Perez
Interdisciplinary Journal of Problem-Based Learning
Recent calls have been made to enhance and extend the statistical experiences of K-12 students. However, to ensure that such goals are met, teachers also need to develop deep conceptual understanding and pedagogical content knowledge that are essential to statistical thinking and reasoning. In this regard, over the past two decades, leading thinkers and professional organizations had advocated that teaching and curricula should be focused and organized around problem solving. In this paper we describe three such technology-supported curricula—a project-based learning (PjBL) unit, problem-solving activities (PS) unit, and a model-eliciting activities (MEA) unit—that align with this perspective and discuss the …
Determining The Effects Of Pre-College Stem Contexts On Stem Major Choices In 4-Year Postsecondary Institutions Using Multilevel Structural Equation Modeling, Ahlam Lee
Journal of Pre-College Engineering Education Research (J-PEER)
Many STEM studies have focused on traditional learning contexts, such as math- and science-related learning factors, as pre-college learning predictors for STEM major choices in colleges. Few studies have considered a progressive learning activity embedded within STEM contexts. This study chose computer-based learning activities in K-12 math classrooms, as a major pre-college learning predictor for STEM major choices. Using a nationally represented sample drawn from the Educational Longitudinal Study of 2002/06, the purpose of this study was two-fold: (a) to investigate the influence of computer-based learning activities in math classrooms on STEM major choices in 4-year postsecondary institutions and (b) …