-Offers an interdisciplinary, five-lesson module using project- and problem-based learning to help seventh grade students investigate the health, social, and economic impacts of GMO production and consumption, designed to infuse real-world learning into K-12 classrooms. -Written and developed for seventh grade teachers, the book offers lesson plans guiding students to research different aspects of GMO production and consumption, analyze various sources of research, and share their findings by creating a documentary. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

What if you could challenge your eleventh graders to come up with a design solution for developing, managing, and utilizing mineral resources? With this volume in the STEM Road Map Curriculum Series, you can! Mineral Resources outlines a journey that will steer your students toward authentic problem solving while grounding them in integrated STEM disciplines. Like the other volumes in the series, this book is designed to meet the growing need to infuse real-world learning into K-12 classrooms. This interdisciplinary, three-lesson module uses project- and problem-based learning to help students develop an in-depth understanding of mineral resources by researching the utility and impact of particular mineral resources on society. Working in teams, students will locate quantitative and qualitative data on mineral resources and discern the reliability of the information, then use their data to write an opinion article and develop a website to convince readers of the effectiveness of a particular design solution for developing, managing, and utilizing mineral resources. To support this goal, students will do the following: Explain how mineral resources are located and used in various ways in society. Explain why mineral resources are important to society. Critically evaluate quantitative and qualitative data about mineral resources. Write an opinion article demonstrating their knowledge about competing design solutions for extracting mineral resources. The STEM Road Map Curriculum Series is anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning. In-depth and flexible, Mineral Resources can be used as a whole unit or in part to meet the needs of districts, schools, and teachers who are charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, four-lesson module using project- and problem-based learning to help tenth-grade students connect their existing knowledge about energy production and its effects on the natural environment to create innovations in renewable sources of energy based on research evidence. -Written and developed for tenth-grade teachers, the book offers lesson plans challenging students to draw from different academic disciplines to design an innovative way to meet society's energy needs and to develop a pitch to market their innovation, focusing on how the innovation will optimize human experiences while being mindful of the natural environment. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, three-lesson module using project- and problem-based learning to help ninth-grade students investigate different epochs and time periods of the Earth's formation. -Written and developed for ninth grade teachers, the book offers lesson plans guiding students to identify, define and describe the attributes scientists use to delineate Earth's eras, periods, and epochs, in order to determine the appropriate boundary event to define the Anthropocene Epoch, and to develop a publication-ready textbook entry for an Earth science textbook. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, three-lesson module using project- and problem-based learning to help students create an action plan to address issues of energy consumption and climate change, exploring the topic at both local and global levels by working with international student partners. -Written and developed for twelfth grade/high school teachers, the book offers lesson plans guiding students to gather and analyze data on energy consumption and climate change in their communities, share those findings with international student partners and publish their results on an international blog, and to design and present an action plan (including a white paper and presentation) that explores the issues locally and internationally. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, three-lesson module using project- and problem-based learning to help kindergarten students investigate and reduce human impact on the environment, designed to infuse real-world learning into K-12 classrooms. -Written and developed for kindergarten teachers, the book offers lesson plans guiding students to investigate various types of pollution, participate in a classroom recycling program, and share their scientific findings in a publication. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

Featuring a team of over thirty STEM education professionals from across the United States, the updated and revised edition of this landmark book provides an integrated STEM curriculum encompassing the entire K-12 spectrum, with complete grade-level learning based on a spiraled approach to building conceptual understanding. Taking into account the last five years of evolution in STEM education, the second edition includes an increased focus on computer science, computational thinking, mathematics, and the arts, as well as cultural relevance and addressing the needs of diverse learners and underrepresented students. Divided into three main parts - Conceptualizing STEM, STEM Curriculum Maps, and Building Capacity for STEM - each section is designed to build common understandings of integrated STEM, provide rich curriculum maps for implementing integrated STEM at the classroom level, and offer supports to enable systemic transformation to an integrated STEM approach. Written for teachers, policymakers, and administrators, this second edition is fully updated to account for the needs of K-12 learners in the innovation age. STEM Road Map 2.0 enables educators to implement integrated STEM learning into their classroom without the need for extensive resources, empowering educators and supporting students.

-Offers an interdisciplinary, four-lesson module using project- and problem-based learning to help students devise a model for counting populations of a given species on Earth and develop a formal presentation of their models for consideration -Written and developed for middle school teachers, the book offers lesson plans guiding students to examine species’ ecosystems, explore global populations with an economic and geographical lens, take on the role of an urban planner considering the consequences of population density and overpopulation, and share relevant literature -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning

-Offers an interdisciplinary, four-lesson module using project- and problem-based learning to help students devise a model for counting populations of a given species on Earth and develop a formal presentation of their models for consideration -Written and developed for middle school teachers, the book offers lesson plans guiding students to examine species’ ecosystems, explore global populations with an economic and geographical lens, take on the role of an urban planner considering the consequences of population density and overpopulation, and share relevant literature -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning

-Offers an interdisciplinary, four-lesson module using project- and problem-based learning to help students use the engineering design process (EDP) to design and create prototypes of compost systems -Written and developed for elementary school teachers, the book offers lesson plans guiding students to synthesize their learning about biotic and abiotic factors, decomposition, and engineering design into full-scale models -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning

-Offers an interdisciplinary, four-lesson module using project- and problem-based learning to help students use the engineering design process (EDP) to design and create prototypes of compost systems -Written and developed for elementary school teachers, the book offers lesson plans guiding students to synthesize their learning about biotic and abiotic factors, decomposition, and engineering design into full-scale models -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning

-Offers an interdisciplinary, eight-lesson module using project- and problem-based learning to help students explore the potential role of renewable and non-renewable energy sources in transportation, with an emphasis on the auto industry, designed to infuse real-world learning into K-12 classrooms. -Written and developed for eighth grade/middle school teachers, the book offers lesson plans guiding students to learn about renewable and non-renewable energy resources, identify the impact of human activities on the biosphere via the lens of the auto industry, develop a plan for a competitive automobile racing team to fuel a vehicle with minimal environmental impact, and share that work in a presentation and visual display. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, eight-lesson module using project- and problem-based learning to help students explore the potential role of renewable and non-renewable energy sources in transportation, with an emphasis on the auto industry, designed to infuse real-world learning into K-12 classrooms. -Written and developed for eighth grade/middle school teachers, the book offers lesson plans guiding students to learn about renewable and non-renewable energy resources, identify the impact of human activities on the biosphere via the lens of the auto industry, develop a plan for a competitive automobile racing team to fuel a vehicle with minimal environmental impact, and share that work in a presentation and visual display. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, three-lesson module using project- and problem-based learning to help students create an action plan to address issues of energy consumption and climate change, exploring the topic at both local and global levels by working with international student partners. -Written and developed for twelfth grade/high school teachers, the book offers lesson plans guiding students to gather and analyze data on energy consumption and climate change in their communities, share those findings with international student partners and publish their results on an international blog, and to design and present an action plan (including a white paper and presentation) that explores the issues locally and internationally. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, three-lesson module using project- and problem-based learning to help kindergarten students investigate and reduce human impact on the environment, designed to infuse real-world learning into K-12 classrooms. -Written and developed for kindergarten teachers, the book offers lesson plans guiding students to investigate various types of pollution, participate in a classroom recycling program, and share their scientific findings in a publication. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, five-lesson module using project- and problem-based learning to help seventh grade students investigate the health, social, and economic impacts of GMO production and consumption, designed to infuse real-world learning into K-12 classrooms. -Written and developed for seventh grade teachers, the book offers lesson plans guiding students to research different aspects of GMO production and consumption, analyze various sources of research, and share their findings by creating a documentary. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

What if you could challenge your eleventh graders to come up with a design solution for developing, managing, and utilizing mineral resources? With this volume in the STEM Road Map Curriculum Series, you can! Mineral Resources outlines a journey that will steer your students toward authentic problem solving while grounding them in integrated STEM disciplines. Like the other volumes in the series, this book is designed to meet the growing need to infuse real-world learning into K-12 classrooms. This interdisciplinary, three-lesson module uses project- and problem-based learning to help students develop an in-depth understanding of mineral resources by researching the utility and impact of particular mineral resources on society. Working in teams, students will locate quantitative and qualitative data on mineral resources and discern the reliability of the information, then use their data to write an opinion article and develop a website to convince readers of the effectiveness of a particular design solution for developing, managing, and utilizing mineral resources. To support this goal, students will do the following: Explain how mineral resources are located and used in various ways in society. Explain why mineral resources are important to society. Critically evaluate quantitative and qualitative data about mineral resources. Write an opinion article demonstrating their knowledge about competing design solutions for extracting mineral resources. The STEM Road Map Curriculum Series is anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning. In-depth and flexible, Mineral Resources can be used as a whole unit or in part to meet the needs of districts, schools, and teachers who are charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, four-lesson module using project- and problem-based learning to help tenth-grade students connect their existing knowledge about energy production and its effects on the natural environment to create innovations in renewable sources of energy based on research evidence. -Written and developed for tenth-grade teachers, the book offers lesson plans challenging students to draw from different academic disciplines to design an innovative way to meet society's energy needs and to develop a pitch to market their innovation, focusing on how the innovation will optimize human experiences while being mindful of the natural environment. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

-Offers an interdisciplinary, three-lesson module using project- and problem-based learning to help ninth-grade students investigate different epochs and time periods of the Earth's formation. -Written and developed for ninth grade teachers, the book offers lesson plans guiding students to identify, define and describe the attributes scientists use to delineate Earth's eras, periods, and epochs, in order to determine the appropriate boundary event to define the Anthropocene Epoch, and to develop a publication-ready textbook entry for an Earth science textbook. -Anchored in the Next Generation Science Standards, the Common Core State Standards, and the Framework for 21st Century Learning, which can be used in full or in part to meet the needs of districts, schools and teachers charting a course toward an integrated STEM approach.

Featuring a team of over thirty STEM education professionals from across the United States, the updated and revised edition of this landmark book provides an integrated STEM curriculum encompassing the entire K-12 spectrum, with complete grade-level learning based on a spiraled approach to building conceptual understanding. Taking into account the last five years of evolution in STEM education, the second edition includes an increased focus on computer science, computational thinking, mathematics, and the arts, as well as cultural relevance and addressing the needs of diverse learners and underrepresented students. Divided into three main parts - Conceptualizing STEM, STEM Curriculum Maps, and Building Capacity for STEM - each section is designed to build common understandings of integrated STEM, provide rich curriculum maps for implementing integrated STEM at the classroom level, and offer supports to enable systemic transformation to an integrated STEM approach. Written for teachers, policymakers, and administrators, this second edition is fully updated to account for the needs of K-12 learners in the innovation age. STEM Road Map 2.0 enables educators to implement integrated STEM learning into their classroom without the need for extensive resources, empowering educators and supporting students.

Science and engineering practices tend to be more difficult to teach and monitor for student progress than content knowledge, because practices are skill based. This book presents tangible ways for teacher educators and teachers to design learning environments that involve student goal setting, monitoring, and reflection on their performance of science and engineering practices. It models ways teachers can support effective learning behaviors and monitor student progress in science and engineering practices. It also presents practical ways to set up preservice teacher instruction and inservice teacher professional development that address both self-regulated learning and science and engineering practices. Educational research designs are presented from qualitative, quantitative, and mixed methods traditions that investigate student and teacher engagement with science and engineering practices through self-regulated learning.

Book & CD-ROM. pace weather refers to variations in the space environment between the sun and Earth (and throughout the solar system) that can affect technologies in space and on Earth. Space weather can disrupt the technology that forms the backbone of this country's economic vitality and national security, including satellite and airline operations, communications networks, navigation systems, and the electric power grid. As the Nation becomes ever more dependent on these technologies, space weather poses an increasing risk to infrastructure and the economy. Further, the Strategic National Risk Assessment has identified space weather as a hazard that poses significant risk to the security of the Nation. Clearly, reducing vulnerability to space weather needs to be a national priority. The National Space Weather Strategy (Strategy) and the accompanying National Space Weather Action Plan (Action Plan) together seek to enhance the integration of existing national efforts and to add important capabilities to help meet growing demands for space-weather information. The Strategy and Action Plan build on recent efforts to reduce risks associated with natural hazards and improve resilience of essential facilities and systems, aiming to foster a collaborative environment in which government, industry, and the American people can better understand and prepare for the effects of space weather. The Nation must continue to leverage existing public and private networks of expertise and capabilities and pursue targeted enhancements to improve the ability to manage risks associated with space weather. This book outlines objectives for enhancing the Nation's space-weather readiness in three key areas: national preparedness, forecasting, and understanding. It also describes the study process, the study requirements and their relevance and importance, an assessment and accounting of current and planned space weather observing systems used or to be used for operations, an analysis of gaps between the observing systems' capabilities and their ability to meet documented requirements, and a summary of key findings.

Science and engineering practices tend to be more difficult to teach and monitor for student progress than content knowledge, because practices are skill based. This book presents tangible ways for teacher educators and teachers to design learning environments that involve student goal setting, monitoring, and reflection on their performance of science and engineering practices. It models ways teachers can support effective learning behaviors and monitor student progress in science and engineering practices. It also presents practical ways to set up preservice teacher instruction and inservice teacher professional development that address both self-regulated learning and science and engineering practices. Educational research designs are presented from qualitative, quantitative, and mixed methods traditions that investigate student and teacher engagement with science and engineering practices through self-regulated learning.

Entrepreneurship is defined in different fields with definitions ranging from a specific perspective such as starting a business to a broader perspective such as a process of establishing new social, economic, environmental, institutional, cultural and/or scientific environments. There has been some movement toward entrepreneurship in STEM education through hackathons and makerspaces, but they tend to be limited to informal settings. In higher education, there seems to be a border line between business schools and education departments. This book aims to remove the borders between the Business Schools and the Department of Education and help Business Schools to develop their educational practices further and help Education Departments to develop their knowledge of entrepreneurship from its formal discipline. The purpose of this book is to bring together experts from STEM education and the formal discipline of entrepreneurship to explore the role of STEM in everyday life through an entrepreneurial lens and show how this integration can broaden STEM education practices.