Underrepresented Populations (General)

An Online STEM Career Exploration and Readiness Environment for Opportunity Youth

This project aims to create a web-based STEM Career Exploration and Readiness Environment (CEE-STEM) that will support opportunities for youth ages 16-24 who are neither in school nor are working, in rebuilding engagement in STEM learning and developing STEM skills and capacities relevant to diverse postsecondary education/training and employment pathways.

Award Number: 
1620904
Funding Period: 
Thu, 09/15/2016 to Mon, 08/31/2020
Full Description: 

CAST, the University of Massachusetts-Amherst, and YouthBuild USA aim to create a web-based STEM Career Exploration and Readiness Environment (CEE-STEM). This will support opportunities for youth ages 16-24 who are neither in school nor are working, in rebuilding engagement in STEM learning and developing STEM skills and capacities relevant to diverse postsecondary education/training and employment pathways. The program will provide opportunity youth with a personalized and portable tool to explore STEM careers, demonstrate their STEM learning, reflect on STEM career interests, and take actions to move ahead with STEM career pathways of interest.

The proposed program addresses two critical and interrelated aspects of STEM learning for opportunity youth: the development of STEM foundational knowledge; and STEM engagement, readiness and career pathways. These aspects of STEM learning are addressed through an integrated program model that includes classroom STEM instruction; hands-on job training in career pathways including green construction, health care, and technology.


Project Videos

2020 STEM for All Video Showcase

Title: STEMfolio: A Portfolio Builder & Career Exploration Tool

Presenter(s): Tracey Hall

2019 STEM for All Video Showcase

Title: Building a Diverse STEM Talent Pipeline: Finding What Works

Presenter(s): Tracey Hall

2018 STEM for All Video Showcase

Title: Bridging the Gap Between Ability and Opportunity in STEM

Presenter(s): Sam Johnston


Improving the Implementation of Rigorous Instructional Materials in Middle-Grades Mathematics: Developing a System of Practical Measures and Routines (Collaborative Research: Jackson)

The goal of this project is to improve the implementation of rigorous instructional materials in middle-grades mathematics at scale through a system of practical measures and routines for collecting and using data that both assesses and supports implementation.

Lead Organization(s): 
Award Number: 
1620851
Funding Period: 
Sat, 10/01/2016 to Thu, 09/30/2021
Full Description: 

The goal of this 5-year research project is to improve the implementation of rigorous instructional materials in middle-grades mathematics at scale. Many projects seek to improve mathematics instruction, but are not able to easily track their efforts at improvement. The primary product of this project will be a system of practical measures and routines for collecting and using data that both assesses and supports the implementation of rigorous instructional materials in middle-grades mathematics. In contrast to research and accountability measures, practical measures are assessments that require little time to administer and can thus be used frequently. The data can be analyzed rapidly so that teachers can receive prompt feedback on their progress, and instructional leaders can use the data to decide where to target resources to support improvement in the quality of instruction and student learning. The system of practical measures and routines will include 1) measures of high-leverage aspects of teachers' instructional practices that have been linked to student learning (e.g., rigor of tasks, quality of students' discourse) and attend to equitable student participation; and 2) measures of high-leverage aspects of key supports for improving the quality of teachers' practice (e.g., quality of professional development; coaching); and 3) a set of routines regarding how to use the resulting data to engage in rapid, improvement efforts. A key principle of the proposed project is that the system of measures and routines can be adapted to a wide range of school and district contexts. This project is supported by the Discovery Research preK-12 (DRK-12) program. The DRK-12 program supports research and development of STEM education innovations and approaches in assessment, learning, and teaching.

The project will establish three research-practice partnerships with five districts, in three different states, that are currently implementing rigorous instructional materials in middle-grades mathematics. Year 1 will focus on the development of a set of practical measures of classroom instruction. Year 2 will focus on testing the use of the classroom measures in the context of supports for teachers' learning, and the development of practical measures of key supports for teachers' learning. Years 3-4 will focus on how the project can "learn our way to scale" (Bryk et al., 2015), which requires strategically implementing measures and routines in increasingly diverse conditions. The project will engage in rapid improvement cycles in which researchers will work alongside district leaders and professional development (PD) facilitators to analyze the data from the measures of both classroom instruction and the quality of support for teacher learning to test the effectiveness of improvements in intended supports for teacher learning and to adjust the design of the support based on data. Across Years 1-4, the project will use recent developments in technology and information visualization to test and improve 1) the collection of practical measures in situ and 2) the design of data representations (or visualizations) that support teachers and leaders to make instructional improvement decisions. In Year 5, the project will conduct formal analyses of the relations between supports for teachers' learning; teachers' knowledge and classroom practices; and student learning.

Connected Biology: Three-Dimensional Learning from Molecules to Populations (Collaborative Research: White)

This project will design, develop, and examine the learning outcomes of a new curriculum unit for biology that embodies the conceptual framework of the Next Generation Science Standards (NGSS). The curriculum materials to be developed by this project will focus on two areas of study that are central to the life sciences: genetics and the processes of evolution by natural selection.

Lead Organization(s): 
Award Number: 
1620746
Funding Period: 
Sat, 10/01/2016 to Thu, 09/30/2021
Full Description: 

This project will contribute to this mission by designing, developing, and examining the learning outcomes of a new curriculum unit for biology that embodies the conceptual framework of the Next Generation Science Standards (NGSS). The curriculum materials to be developed by this project will focus on two areas of study that are central to the life sciences: genetics and the processes of evolution by natural selection. These traditionally separate topics will be interlinked and will be designed to engage students in the disciplinary core ideas, crosscutting concepts, and the science and engineering practices defined by the NGSS. Once developed, the curriculum materials will be available online for use in high school biology courses nationwide.

This project will be guided by two main research questions: 1) How does learning progress when students experience a set of coherent biology learning materials that employ the principles of three-dimensional learning?; and 2) How do students' abilities to transfer understanding about the relationships between molecules, cells, organisms, and evolution change over time and from one biological phenomenon to another? The project will follow an iterative development plan involving cycles of designing, developing, testing and refining elements of the new curricular model. The project team will work with master teachers to design learning sequences that use six case studies to provide examples of how genetic and evolutionary processes are interlinked. An online data exploration environment will extend learning by enabling students to simulate phenomena being studied and explore data from multiple experimental trials as they seek patterns and construct cause-and-effect explanations of phenomena. Student learning will be measured using a variety of assessment tools, including multiple-choice assessment of student understanding, surveys, classroom observations and interviews, and embedded assessments and log files from the online learning environment.


Project Videos

2020 STEM for All Video Showcase

Title: ConnectedBio: Interactive Evolution Across Biological Scales

Presenter(s): Kiley McElroy-Brown, Rebecca Ellis, & Frieda Reichsman


CAREER: Multilevel Mediation Models to Study the Impact of Teacher Development on Student Achievement in Mathematics

This project will develop a comprehensive framework to inform and guide the analytic design of teacher professional development studies in mathematics. An essential goal of the research is to advance a science of teaching and learning in ways that traverse both research and education.

Lead Organization(s): 
Award Number: 
1552535
Funding Period: 
Thu, 09/01/2016 to Tue, 08/31/2021
Full Description: 

This is a Faculty Early Career Development Program (CAREER) project. The CAREER program is a National Science Foundation-wide activity that offers the most prestigious awards in support of junior faculty who exemplify the role of teacher-scholars through outstanding research, excellent education and the integration of education and research. The intellectual merit and broader impacts of this study lie in two complementary contributions of the project. First, the development of the statistical framework for the design of multilevel mediation studies has significant potential for broad impact because it develops a core platform that is transferable to other STEM (science, technology, engineering, and mathematics) education areas and STEM disciplines. Second, the development of software and curricular materials to implement this framework further capitalize on the promise of this work because it distributes the results in an accessible manner to diverse sets of research and practitioner groups across STEM education areas and STEM disciplines. Together, the components of this project will substantially expand the scope and quality of evidence generated through mathematics professional development and, more generally, multilevel mediation studies throughout STEM areas by increasing researchers' capacity to design valid and comprehensive studies of the theories of action and change that underlie research programs.

This project will develop a comprehensive framework to inform and guide the analytic design of teacher professional development studies in mathematics. The proposed framework incorporates four integrated research and education components: (1) develop statistical formulas and tools to guide the optimal design of experimental and non-experimental multilevel mediation studies in the presence of measurement error, (2) develop empirical estimates of the parameters needed to implement these formulas to design teacher development studies in mathematics, (3) develop free and accessible software to execute this framework, and (4) develop training materials and conduct workshops on the framework to improve the capacity of the field to design effective and efficient studies of teacher development. An essential goal of the research is to advance a science of teaching and learning in ways that traverse both research and education.

Supporting Teacher Practice to Facilitate and Assess Oral Scientific Argumentation: Embedding a Real-Time Assessment of Speaking and Listening into an Argumentation-Rich Curriculum (Collaborative Research: Greenwald)

The fundamental purpose of this project is to support teacher practice and professional learning around oral scientific argumentation in order to improve the quality of this practice in classrooms. The key outcome of this work will be a research-informed and field-tested prototype to improve the quality of teaching and learning argumentation in middle school science classrooms usable in different learning environments.

Partner Organization(s): 
Award Number: 
1621441
Funding Period: 
Thu, 09/01/2016 to Mon, 08/31/2020
Full Description: 

This is an early-stage design and development collaborative study submitted to the assessment strand of the Discovery Research PreK-12 (DRK-12) program, in response to Program Solicitation NSF 15-592. The fundamental purpose of this project is to support teacher practice and professional learning around oral scientific argumentation in order to improve the quality of this practice in classrooms. To achieve this purpose, the project will examine the validity of a new technology-based formative assessment tool for classroom argumentation--"Diagnosing the Argumentation Levels of Groups" (DiALoG)--for which psychometric validation work has been conducted in a laboratory setting. The DiALoG assessment tool allows teachers to document classroom talk and display scores across multiple dimensions--both intrapersonal and interpersonal--for formative assessment purposes. The project will work with 6th-8th grade science teachers to monitor and support argumentation through real-time formative assessment data generated by the DiALoG instrument. DiALoG will be used in conjunction with "Amplify Science", a Lawrence Hall of Science-developed curriculum that incorporates the science practice of engaging in argument from evidence, and a suite of newly developed Responsive Mini-Lessons (RMLs), which consist of 20-30 minute instructional strategies designed to assist teachers to provide feedback to students' thinking and follow-up to argumentation episodes that the DiALoG tool identifies in need of further support. The study will allow the refinement and expansion of DiALoG and evaluation of its impact on teacher pedagogical content knowledge and formative assessment practices in widespread classroom use.

The project will address two specific research questions: (1) How can DiALoG be refined to provide a formative assessment tool for oral argumentation that is reliable, practical, and useful in middle school classrooms?; and (2) How does the use of DiALoG affect teacher formative assessment practices around evidence-based argumentation, when implementing science units designed to support oral argumentation? In order to answer these questions, the project will conduct a randomized control trial with 100 teachers: 50 will teach argumentation-focused curriculum with DiALoG, 50 will teach the same curriculum without DiALoG. Both control and treatment teachers will receive all digital and physical materials needed to teach three Amplify Science curriculum units. Treatment teachers will be provided also with the most recent version of DiALoG, including the linked RMLs, as well as support materials for using DiALoG with the Amplify curriculum. A subgroup of focus teachers (5 from the treatment group, and 5 from the control group) will be the subject of additional data collection and analysis. Three focus lessons, in which students are engaging in small-group or whole-class oral argumentation, will be selected from each of the three Amplify Science curricular units. Teacher measures for the randomized control trial will include validated instruments, such as (a) a pre- and post-assessment of teacher pedagogical content knowledge; (b) post-lesson and post-unit surveys in which teachers will self-report on their formative assessment practices; and (c) video recordings of selected lessons in the focus classrooms. In order to observe potential differences in formative assessment practices between treatment and control, protocols will be used to analyze the video recordings of focus classrooms, including (a) Reformed Teaching Observation Protocol; (b) Assessment of Scientific Argumentation inside the Classroom; and (c) Formative Assessment for Teachers and Students. The key outcome of this work will be a research-informed and field-tested prototype to improve the quality of teaching and learning argumentation in middle school science classrooms usable in different learning environments.

Supporting Teacher Practice to Facilitate and Assess Oral Scientific Argumentation: Embedding a Real-Time Assessment of Speaking and Listening into an Argumentation-Rich Curriculum (Collaborative Research: Henderson)

The fundamental purpose of this project is to support teacher practice and professional learning around oral scientific argumentation in order to improve the quality of this practice in classrooms. The key outcome of this work will be a research-informed and field-tested prototype to improve the quality of teaching and learning argumentation in middle school science classrooms usable in different learning environments.

Lead Organization(s): 
Award Number: 
1621496
Funding Period: 
Thu, 09/01/2016 to Mon, 08/31/2020
Full Description: 

This is an early-stage design and development collaborative study submitted to the assessment strand of the Discovery Research PreK-12 (DRK-12) program, in response to Program Solicitation NSF 15-592. The fundamental purpose of this project is to support teacher practice and professional learning around oral scientific argumentation in order to improve the quality of this practice in classrooms. To achieve this purpose, the project will examine the validity of a new technology-based formative assessment tool for classroom argumentation--"Diagnosing the Argumentation Levels of Groups" (DiALoG)--for which psychometric validation work has been conducted in a laboratory setting. The DiALoG assessment tool allows teachers to document classroom talk and display scores across multiple dimensions--both intrapersonal and interpersonal--for formative assessment purposes. The project will work with 6th-8th grade science teachers to monitor and support argumentation through real-time formative assessment data generated by the DiALoG instrument. DiALoG will be used in conjunction with "Amplify Science", a Lawrence Hall of Science-developed curriculum that incorporates the science practice of engaging in argument from evidence, and a suite of newly developed Responsive Mini-Lessons (RMLs), which consist of 20-30 minute instructional strategies designed to assist teachers to provide feedback to students' thinking and follow-up to argumentation episodes that the DiALoG tool identifies in need of further support. The study will allow the refinement and expansion of DiALoG and evaluation of its impact on teacher pedagogical content knowledge and formative assessment practices in widespread classroom use.

The project will address two specific research questions: (1) How can DiALoG be refined to provide a formative assessment tool for oral argumentation that is reliable, practical, and useful in middle school classrooms?; and (2) How does the use of DiALoG affect teacher formative assessment practices around evidence-based argumentation, when implementing science units designed to support oral argumentation? In order to answer these questions, the project will conduct a randomized control trial with 100 teachers: 50 will teach argumentation-focused curriculum with DiALoG, 50 will teach the same curriculum without DiALoG. Both control and treatment teachers will receive all digital and physical materials needed to teach three Amplify Science curriculum units. Treatment teachers will be provided also with the most recent version of DiALoG, including the linked RMLs, as well as support materials for using DiALoG with the Amplify curriculum. A subgroup of focus teachers (5 from the treatment group, and 5 from the control group) will be the subject of additional data collection and analysis. Three focus lessons, in which students are engaging in small-group or whole-class oral argumentation, will be selected from each of the three Amplify Science curricular units. Teacher measures for the randomized control trial will include validated instruments, such as (a) a pre- and post-assessment of teacher pedagogical content knowledge; (b) post-lesson and post-unit surveys in which teachers will self-report on their formative assessment practices; and (c) video recordings of selected lessons in the focus classrooms. In order to observe potential differences in formative assessment practices between treatment and control, protocols will be used to analyze the video recordings of focus classrooms, including (a) Reformed Teaching Observation Protocol; (b) Assessment of Scientific Argumentation inside the Classroom; and (c) Formative Assessment for Teachers and Students. The key outcome of this work will be a research-informed and field-tested prototype to improve the quality of teaching and learning argumentation in middle school science classrooms usable in different learning environments.

CAREER: Making Science Visible: Using Visualization Technology to Support Linguistically Diverse Middle School Students' Learning in Physical and Life Sciences

Award Number: 
1552114
Funding Period: 
Wed, 06/01/2016 to Mon, 05/31/2021
Full Description: 

The growing diversity in public schools requires science educators to address the specific needs of English language learners (ELLs), students who speak a language other than English at home. Although ELLs are the fastest-growing demographic group in classrooms, many are historically underserved in mainstream science classrooms, particularly those from underrepresented minority groups. The significant increase of ELLs at public schools poses a challenge to science teachers in linguistically diverse classrooms as they try to support and engage all students in learning science. The proposed project will respond to this urgent need by investigating the potential benefits of interactive, dynamic visualization technologies, including simulations, animations, and visual models, in supporting science learning for all middle school students, including ELLs. This project will also identify design principles for developing such technology, develop additional ways to support student learning, and provide new guidelines for effective science teachers' professional development that can assist them to better serve students from diverse language backgrounds. The project has the potential to transform traditional science instruction for all students, including underserved ELLs, and to broaden their participation in science.

In collaboration with eighth grade science teachers from two low-income middle schools in North Carolina, the project will focus on three objectives: (1) develop, test, and refine four open-source, web-based inquiry units featuring dynamic visualizations on energy and matter concepts in physical and life sciences, aligned with the Next Generation Science Standards (NGSS); (2) investigate how dynamic visualizations can engage eighth-grade ELLs and native-English-speaking students in science practices and improve their understanding of energy and matter concepts; and (3) investigate which scaffolding approaches can help maximize ELLs' learning with visualizations. Research questions include: (1) Which kinds of dynamic visualizations (simulations, animations, visual models) lead to the best learning outcomes for all students within the four instructional science units?; (2) Do ELLs benefit more from visualizations (or particular kinds of visualizations) than do native-English-speaking students?; and (3) What kinds of additional scaffolding activities (e.g., critiquing arguments vs. generating arguments) are needed by ELLs in order to achieve the greatest benefit? The project will use design-based research and mixed-methods approaches to accomplish its research objectives and address these questions. Furthermore, it will help science teachers develop effective strategies to support students' learning with visualizations. Products from this project, including four NGSS-aligned web-based inquiry units, the visualizations created for the project, professional development materials, and scaffolding approaches for teachers to use with ELLs, will be freely available through a project website and multiple professional development networks. The PI will collaborate with an advisory board of experts to develop the four instructional units, visualizations, and scaffolds, as well as with the participating teachers to refine these materials in an iterative fashion. Evaluation of the materials and workshops will be provided each year by the advisory board members, and their feedback will be used to improve design and implementation for the next year. The advisory board will also provide summative evaluation of student learning outcomes and will assess the success of the teachers' professional development workshops.

CAREER: Investigating Fifth Grade Teachers' Knowledge of Noticing Appalachian Students' Thinking in Science

This project will investigate teachers' knowledge of noticing students' science thinking. The project will examine teacher noticing in practice, use empirical evidence to model the teacher knowledge involved, and design teacher learning materials informed by the model. The outcomes of this project will be a model of teachers' knowledge of noticing Appalachian students' thinking in science and the design of web-based interactive instructional materials supporting teachers' knowledge construction around noticing Appalachian students' thinking in science.

Award Number: 
1552428
Funding Period: 
Fri, 07/01/2016 to Wed, 06/30/2021
Full Description: 

Based on findings from research on effective science teaching supporting the notion that meaningful learning occurs when teachers attend to students' thinking, this project will conduct an in-depth investigation of teachers' knowledge of noticing students' science thinking in terms of what they do and say, to not only attend to their ideas, but also to make sense of and respond to those ideas. The work will be grounded on the premise that there is a relationship between teachers' practice and knowledge, and that it is possible to observe practice in order to infer knowledge. The project will examine teacher noticing in practice, use empirical evidence to model the specialized teacher knowledge involved, and design teacher learning materials informed by the model. The setting of the study will include an existing school-university partnership serving diverse student populations in Appalachian communities, where students significantly underperform nationally in Science, Technology, Engineering, and Mathematics areas across grades levels. It will target fifth grade science teachers' noticing their students' thinking as they engage in science learning in six rural and semi-rural elementary schools.

The three research questions will be: (1) What disciplinary ideas in students' thinking do elementary teachers notice in practice?; (2) What knowledge do elementary teachers draw on when noticing the disciplinary ideas in students' thinking in practice?; and (3) How does a set of web-based interactive instructional materials support teachers' knowledge construction around noticing the disciplinary ideas in students' thinking in science? In order to investigate teachers' noticing students' thinking, and answer the research questions, the project will use two wearable technologies to collect data of teachers' "in-the-moment" noticing while engaged in planning, instructional, and assessment activities. One is a point-of-view digital video system consisting of three parts: a small video camera, a hand-held remote, and a separate recording module. The other is an audio-recording wristband with a recording mode allowing the user to capture previous one-minute loops of audio data. An audio loop is saved whenever the user taps the wristband. Data will be analyzed for evidence of students' disciplinary knowledge and skills in order to give insight of teachers' knowledge involved in noticing each instance using the three interconnected dimensions featured in "A Framework for K-12 Science Education" (National Research Council, 2012). The project will consist of four strands of work: (1) empirically investigating teachers' noticing of students' thinking; (2) developing an initial conceptual model of teachers' knowledge of noticing students' thinking; (3) conducting design-based research to develop instructional materials supporting teachers' knowledge construction around noticing students' thinking in science; and (4) producing and disseminating these instructional materials through an interactive web-based platform. The main outcomes of this project will be (a) an empirically grounded model of fifth grade teachers' knowledge of noticing Appalachian students' thinking in science; and (b) the design of web-based interactive instructional materials supporting fifth grade teachers' knowledge construction around noticing Appalachian students' thinking in science. These outcomes will serve as the foundation for a more comprehensive future research agenda testing and refining the initial model and instructional materials in other learning environments in order to eventually contribute to a practice-based theory of teachers' knowledge of noticing students' thinking in science to inform and impact science teaching practice. An advisory board will oversee the project's progress, and an external evaluator will conduct both formative and summative evaluation.

CAREER: Designing Learning Environments to Foster Productive and Powerful Discussions Among Linguistically Diverse Students in Secondary Mathematics

Lead Organization(s): 
Award Number: 
1553708
Funding Period: 
Mon, 02/01/2016 to Sun, 01/31/2021
Full Description: 

The project will design and investigate learning environments in secondary mathematics classrooms focused on meeting the needs of English language learners. An ongoing challenge for mathematics teachers is promoting deep mathematics learning among linguistically diverse groups of students while taking into consideration how students' language background influences their classroom experiences and the mathematical understandings they develop. In response to this challenge, this project will design and develop specialized instructional materials and guidelines for teaching fundamental topics in secondary algebra in linguistically diverse classrooms. The materials will incorporate insights from current research on student learning in mathematics as well as insights from research on the role of language in students' mathematical thinking and learning. A significant contribution of the work will be connecting research on mathematics learning generally with research on the mathematics learning of English language learners. In addition to advancing theoretical understandings, the research will also contribute practical resources and guidance for mathematics teachers who teach English language learners. The Faculty Early Career Development (CAREER) program is a National Science Foundation (NSF)-wide activity that offers awards in support of junior faculty who exemplify the role of teacher-scholars through outstanding research, excellent education, and the integration of education and research within the context of the mission of their organizations.

The project is focused on the design of specialized hypothetical learning trajectories that incorporate considerations for linguistically diverse students. One goal for the specialized trajectories is to foster productive and powerful mathematics discussions about linear and exponential rates in linguistically diverse classrooms. The specialized learning trajectories will include both mathematical and language development learning goals. While this project focuses on concepts related to reasoning with linear and exponential functions, the resulting framework should inform the design of specialized hypothetical learning trajectories in other topic areas. Additionally, the project will add to the field's understanding of how linguistically diverse students develop mathematical understandings of a key conceptual domain. The project uses a design-based research framework gathering classroom-based data, assessment data, and interviews with teachers and students to design and refine the learning trajectories. Consistent with a design-based approach, the project results will include development of theory about linguistically diverse students' mathematics learning and development of guidance and resources for secondary mathematics teachers. This research involves sustained collaboration with secondary mathematics teachers and the impacts will include developing capacity of teachers locally, and propagating the results of this work in professional development activities.


Project Videos

2020 STEM for All Video Showcase

Title: Engaging Multilingual Secondary Math Learners in Discussions

Presenter(s): William Zahner, Ernesto Calleros, & Kevin Pelaez

2019 STEM for All Video Showcase

Title: Fostering Math Discussions among English Learners

Presenter(s): William Zahner


Three-Dimensional Teaching and Learning: Rebuilding and Researching an Online Middle School Curriculum

This project will develop an online curriculum-based supported by a teacher professional development (PD) program by rebuilding an existing life science unit of Biological Sciences Curriculum Study (BSCS) Middle School Science. The project is designed to be an exemplar of fully digital Next Generation Science Standards (NGSS) aligned resources for teachers and students, creating an NGSS-aligned learning environment combining disciplinary core ideas with science and engineering practices and cross-cutting concepts.

Lead Organization(s): 
Award Number: 
1502571
Funding Period: 
Tue, 09/01/2015 to Sat, 08/31/2019
Full Description: 

This project was funded by the Discovery Research K-12 (DRK-12) program that seeks to significantly enhance the learning and teaching of science, technology, engineering, and mathematics (STEM) by preK-12 students and teachers, through research and development of innovative resources, models, and tools. Projects in the DRK-12 program build on fundamental research in STEM education and prior research and development efforts that provide theoretical and empirical justification for proposed projects. The project, in collaboration with Oregon Public Broadcasting, will develop an online curriculum-based supported by a teacher professional development (PD) program by rebuilding an existing life science unit of Biological Sciences Curriculum Study (BSCS) Middle School Science. The materials will include strategically integrated multimedia elements including animations, interactive learning experiences, and enhanced readings for students, as well as classroom videos for teachers that will help all users gain a deeper understanding of three-dimensional learning. The project is designed to be an exemplar of fully digital Next Generation Science Standards (NGSS) aligned resources for teachers and students, creating an NGSS-aligned learning environment combining disciplinary core ideas with science and engineering practices and cross-cutting concepts. Using the powerful affordances of a digital environment, the project will invigorate and inspire learners and support teachers as only a media-rich environment can do.

The project will develop and research the project innovation, the combination of digital instructional materials for students and online teacher PD using a proven lesson-analysis framework. Although prior research has demonstrated the efficacy of the lesson analysis PD and curriculum elements independently, there has been little investigation of their joint ability to transform teaching and learning. The project will merge research and development in this project by incorporating a complex array of multi-component assessment activities, including classroom-based assessments, in a quasi-experimental study. Assessment activities will be designed using an evidence-centered design process that will involve the careful selection and development of assessment tasks, scoring rubrics, and criteria for scoring based on the performance expectations (PEs) and the best ways to elicit evidence about student proficiency with those PEs. The research, carried out by SRI International, will use multi-component tasks that will support inferences about student learning and advance understanding of how to assess NGSS learning. Project research and resources, which will include a digital, middle school life sciences unit, teacher PD and online digital resources, and related assessment tools, which will be widely disseminated to policy makers, researchers, and practitioners.


Project Videos

2020 STEM for All Video Showcase

Title: A Medical Mystery: Middle School Body Systems for the NGSS

Presenter(s): Susan Kowalski, Lindsey Mohan, Betty Stennett, Catherine Stimac, & Heather Young


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