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Falling for Science
edited and with an introduction by Sherry Turkle [as per Sherry]\"This is a book about science, technology, and love,\" writes Sherry Turkle. In it, we learn how a love for science can start with a love for an object--a microscope, a modem, a mud pie, a pair of dice, a fishing rod. Objects fire imagination and set young people on a path to a career in science. In this collection, distinguished scientists, engineers, and designers as well as twenty-five years of MIT students describe how objects encountered in childhood became part of the fabric of their scientific selves. In two major essays that frame the collection, Turkle tells a story of inspiration and connection through objects that is often neglected in standard science education and in our preoccupation with the virtual. The senior scientists' essays trace the arc of a life: the gears of a toy car introduce the chain of cause and effect to artificial intelligence pioneer Seymour Papert; microscopes disclose the mystery of how things work to MIT President and neuroanatomist Susan Hockfield; architect Moshe Safdie describes how his boyhood fascination with steps, terraces, and the wax hexagons of beehives lead him to a life immersed in the complexities of design. The student essays tell stories that echo these narratives: plastic eggs in an Easter basket reveal the power of centripetal force; experiments with baking illuminate the geology of planets; LEGO bricks model worlds, carefully engineered and colonized. All of these voices--students and mentors--testify to the power of objects to awaken and inform young scientific minds. This is a truth that is simple, intuitive, and easily overlooked.Sherry Turkle is Abby Rockefeller Mauzé Professor of the Social Studies of Science and Technology at MIT and Director of the MIT Initiative on Technology and Self. She is the author of The Second Self: Computers and the Human Spirit (Twentieth Anniversary Edition, MIT Press, 2005) and Life on the Screen: Identity in the Age of the Internet and the editor of Evocative Objects: Things We Think With (MIT Press, 2007).
eBook
VentureGirls : raising girls to be tomorrow's leaders
Shares practical advice and activities for parents and educators for engaging today's young women in STEM subjects while giving them the tools of positive entrepreneurship.
Book
STEM Integration in K-12 Education
STEM Integration in K-12 Education examines current efforts to connect the STEM disciplines in K-12 education. This report identifies and characterizes existing approaches to integrated STEM education, both in formal and after- and out-of-school settings. The report reviews the evidence for the impact of integrated approaches on various student outcomes, and it proposes a set of priority research questions to advance the understanding of integrated STEM education. STEM Integration in K-12 Education proposes a framework to provide a common perspective and vocabulary for researchers, practitioners, and others to identify, discuss, and investigate specific integrated STEM initiatives within the K-12 education system of the United States.
STEM Integration in K-12 Education makes recommendations for designers of integrated STEM experiences, assessment developers, and researchers to design and document effective integrated STEM education. This report will help to further their work and improve the chances that some forms of integrated STEM education will make a positive difference in student learning and interest and other valued outcomes.
eBook
Science in the city : culturally relevant STEM education
\"Science in the City examines the norms governing science knowledge formation and posits a vision of a more culturally relevant approach to science instruction\"-- Provided by publisher.
Book
Undergraduate Research Experiences for STEM Students
Undergraduate research has a rich history, and many practicing researchers point to undergraduate research experiences (UREs) as crucial to their own career success. There are many ongoing efforts to improve undergraduate science, technology, engineering, and mathematics (STEM) education that focus on increasing the active engagement of students and decreasing traditional lecture-based teaching, and UREs have been proposed as a solution to these efforts and may be a key strategy for broadening participation in STEM. In light of the proposals questions have been asked about what is known about student participation in UREs, best practices in UREs design, and evidence of beneficial outcomes from UREs.
Undergraduate Research Experiences for STEM Students provides a comprehensive overview of and insights about the current and rapidly evolving types of UREs, in an effort to improve understanding of the complexity of UREs in terms of their content, their surrounding context, the diversity of the student participants, and the opportunities for learning provided by a research experience. This study analyzes UREs by considering them as part of a learning system that is shaped by forces related to national policy, institutional leadership, and departmental culture, as well as by the interactions among faculty, other mentors, and students. The report provides a set of questions to be considered by those implementing UREs as well as an agenda for future research that can help answer questions about how UREs work and which aspects of the experiences are most powerful.
eBook
Successful K-12 STEM Education
Science, technology, engineering, and mathematics (STEM) are cultural achievements that reflect our humanity, power our economy, and constitute fundamental aspects of our lives as citizens, consumers, parents, and members of the workforce. Providing all students with access to quality education in the STEM disciplines is important to our nation's competitiveness. However, it is challenging to identify the most successful schools and approaches in the STEM disciplines because success is defined in many ways and can occur in many different types of schools and settings. In addition, it is difficult to determine whether the success of a school's students is caused by actions the school takes or simply related to the population of students in the school.
Successful K-12 STEM Education defines a framework for understanding \"success\" in K-12 STEM education. The book focuses its analysis on the science and mathematics parts of STEM and outlines criteria for identifying effective STEM schools and programs. Because a school's success should be defined by and measured relative to its goals, the book identifies three important goals that share certain elements, including learning STEM content and practices, developing positive dispositions toward STEM, and preparing students to be lifelong learners. A successful STEM program would increase the number of students who ultimately pursue advanced degrees and careers in STEM fields, enhance the STEM-capable workforce, and boost STEM literacy for all students. It is also critical to broaden the participation of women and minorities in STEM fields.
Successful K-12 STEM Education examines the vast landscape of K-12 STEM education by considering different school models, highlighting research on effective STEM education practices, and identifying some conditions that promote and limit school- and student-level success in STEM. The book also looks at where further work is needed to develop appropriate data sources. The book will serve as a guide to policy makers; decision makers at the school and district levels; local, state, and federal government agencies; curriculum developers; educators; and parent and education advocacy groups.
eBook
Engaging young engineers : teaching problem solving skills through stem
\"This title provides instruction on how to teach problem solving and critical thinking to young children (birth to 5) using engineering, science, and routines as a framework. The engineering process is an ideal framework for designing learning experiences that support science, technology, engineering, and mathematics (STEM) learning and cognitive development for young children. Young children problem-solve in their daily play, and teachers and caregivers can promote the development of problem solving and critical thinking skills through intentional activities that support young children's brain development and prepare them for kindergarten. Key activities are outlined for each age group, with information on how each activity teaches young children to be curious, persistent, flexible, reflective, and collaborative. This title also provides specific guidance for supporting problem solving and science learning in inclusive classrooms using the universal design for learning (UDL) model, and it helps teachers to prepare children to work towards the Common Core State Standards (CCSS) for kindergarten math and the Next Generation Science Standards (NGSS) for kindergarten science. This title can serve as a supplemental text for early childhood curriculum or instructional methods courses\"-- Provided by publisher.
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