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This project addresses tools to support students in reading and evaluating a variety of sources to compare various claims addressing socioscientific issues. It draws on literacy concepts from science education and social studies to develop and implement scaffolding tools that can support students' understanding of the links among data, evidence, and claims while considering the trustworthiness and plausibility of sources. The project will design and test such instructional scaffolds with the goal of helping middle and high school science and social studies students to deepen their evaluation skills as they make reasoned evaluations as expected of citizens in a functional democratic society.

This project addresses tools to support students in reading and evaluating a variety of sources to compare various claims addressing socioscientific issues. It draws on literacy concepts from science education and social studies to develop and implement scaffolding tools that can support students' understanding of the links among data, evidence, and claims while considering the trustworthiness and plausibility of sources. The project will design and test such instructional scaffolds with the goal of helping middle and high school science and social studies students to deepen their evaluation skills as they make reasoned evaluations as expected of citizens in a functional democratic society.

This project addresses tools to support students in reading and evaluating a variety of sources to compare various claims addressing socioscientific issues. It draws on literacy concepts from science education and social studies to develop and implement scaffolding tools that can support students' understanding of the links among data, evidence, and claims while considering the trustworthiness and plausibility of sources. The project will design and test such instructional scaffolds with the goal of helping middle and high school science and social studies students to deepen their evaluation skills as they make reasoned evaluations as expected of citizens in a functional democratic society.

This project addresses tools to support students in reading and evaluating a variety of sources to compare various claims addressing socioscientific issues. It draws on literacy concepts from science education and social studies to develop and implement scaffolding tools that can support students' understanding of the links among data, evidence, and claims while considering the trustworthiness and plausibility of sources. The project will design and test such instructional scaffolds with the goal of helping middle and high school science and social studies students to deepen their evaluation skills as they make reasoned evaluations as expected of citizens in a functional democratic society.

This project addresses tools to support students in reading and evaluating a variety of sources to compare various claims addressing socioscientific issues. It draws on literacy concepts from science education and social studies to develop and implement scaffolding tools that can support students' understanding of the links among data, evidence, and claims while considering the trustworthiness and plausibility of sources. The project will design and test such instructional scaffolds with the goal of helping middle and high school science and social studies students to deepen their evaluation skills as they make reasoned evaluations as expected of citizens in a functional democratic society.

This study addresses the question: Does gaining admission to a selective STEM specialty school improve students' academic success on the SAT, SAT II, and Advanced Placement exams? Other portions of the investigation follow additional student outcomes, including: participation and success in STEM competitions; STEM publications; intentions for postsecondary STEM education and STEM careers; and initial postsecondary STEM education. This study seeks to inform considerations of the cost/benefit of directing resources to support such schools.

This project will convene mathematics teacher educators with different theoretical perspectives to develop a shared menu of research-supported practices and new research questions to explore that could improve mathematics methods courses.

This project will study whether elementary mathematics specialists who participated in an intensive educational program supported by DRK-12 have continued providing leadership when they returned to teaching full-time. In what ways are specialist-teachers continuing to use their leadership expertise in their school, district, and state? How do district administrators, building administrators, and teachers shape specialist-teachers' opportunities for leadership? What other factors shape these opportunities? What is the impact of specialist-teachers on their schools' leadership culture?

This project will document factors explaining variations in science achievement across schools enrolling ethnically and linguistically diverse students. The research question is: what leadership and organizational features at the school level are associated with mitigating science achievement gaps? At the conclusion of the five-year project, the findings will take the form of recommendations about leadership practices and school organization that can be implemented in other school settings.

This project will document factors explaining variations in science achievement across schools enrolling ethnically and linguistically diverse students. The research question is: what leadership and organizational features at the school level are associated with mitigating science achievement gaps? Researchers, in collaboration with school districts, will identify school leadership practices that can be connected with reductions in achievement gaps related to student ethnicity, English fluency, and social status.

This project is significant because it uses the community for learning science of the environment, in an approach called Citizen Science or Participatory Science Research (PSR). The project will target learning outcomes for underrepresented middle and high school students in the urban and diverse East San Francisco Bay Area, and will refine a theory of learning that makes more explicit the connections between science practices, identity, and value and relevance.

This project focuses on the research and develop an engineering education technology and pedagogy that will support project-based learning of science, engineering, and computation concepts and skills underlying the strategically important "smart" and "green" aspects of the infrastructure. The project will develop transformative technologies and curriculum materials to turn the campus of a high school or a geographical information system such as Google Maps into an engineering laboratory with virtually unlimited opportunities for learning and exploration.

This is a 2-day conference that will examine current strategies, issues and future challenges related to teacher professional development regarding integrating inquiry-oriented science instruction and English Language Development (ELD) for K-5 students. The conference convenes 40 researchers and professional development practitioners who examine theory and practice in inquiry-based science instruction and ELD.

This is a three-day conference designed to support the development and use of K-12 formative and summative assessments aligned with the Framework for K-12 Science Education (NRC, 2012).

This project will study implementation of an effective professional learning model for elementary science teachers that includes teacher leaders, administrators and university educators in a system perspective for improving science instruction in ways that make it sustainable.

This project will develop and test a professional development program designed for school district science coordinators by examining impacts of participating coordinators on science teachers and their students.

The purposes of this conference are to organize scholarly work about equity in science education and to broaden the set of scholars in science education who have equity as a focus.

Science in the Learning Gardens (SciLG) designs and implements curriculum aligned with Next Generation Science Standards (NGSS) and uses school gardens as learning contexts in grade 6 (2014-2015), grade 7 (2015-2016) and grade 8 (2016-2017) in two low-income urban schools. The project investigates the extent to which SciLG activities predict students’ STEM identity, motivation, learning, and grades in science using a theoretical model of motivational development.

This project's approach uses two types of embodied performances: experiential performances that engage learners in using their bodies to physically experience scientific phenomena (e.g., the increase of heart rate during exercise), and dramatic performances where learners act out science ideas (e.g., the sources and impact of air pollution) with gestures, body movement, dances, role-plays, or theater productions. The project is adding to the limited science education literature on the use, value, and impact of embodied performances in science classrooms, and on the brilliance, ingenuity, and science knowledge that all youth, and particularly historically marginalized young people, have and can further develop in urban school classrooms.

This project is developing and implementing a rigorous eighth grade physical science program that utilizes engineering design, LEGO™ robotics and mechanics, and a problem-based learning approach to teach mechanics, waves, and energy.