This is a great book! It provides real examples for teachers, school districts, and teacher education programs to assess science standards in the curriculum.""Fred Bartelheim, ProfessorCollege of Education, University of Northern Colorado, Greeley" "" """An abundance of practical assessment instruments at your fingertips! Checklists, rubrics, real-examples -- it's all fantastic!""Mary Ann Sweet, School CounselorTomball Elementary School, TX"""Finally -- an accessible and practical approach to assessing science education! """""Educators need a way to better assess science curriculum, teaching, and student learning to help our students become leaders, not just followers, in their technological future. Sandra Enger and Robert Yager, two experts in the field, provide the way. Comprehensive but accessible -- this book is packed full of methods for assessing the National Science Education Standards adopted by the National Research Council -- the basis for most state and local standards. Alternative assessments, rubrics, grade level exemplars, and ideas for teachers to evaluate and improve their own curriculum and instruction make this practical hands-on guide a must. This book addresses critical issues of assessment including: Criteria to measure student progress in the six domains of science: concepts, processes, applications, attitude, the nature of science, and creativity Assessing student learning Evaluating teaching practice Designing rubrics and scoring guidesEnger and Yager deftly weave together theory and real-life practice using examples created by teachers in the field. A rich resourcesection offers an in-depth glossary and examples and samples specific to grade levels. The book will be invaluable to individual teachers as well as to districts in developing district-wide assessment of state and local standards.
Science/Technology/Society (S/T/S) is a reform effort to broaden science as a discipline in schools and colleges; to relate science to other facets of the curriculum; and to relate science specifically to technology and to the society that supports and produces new conceptualizations of both. S/T/S is also defined as the teaching and learning of science/technology in the context of human experience. It focuses on a method of teaching that recognizes the importance that experience in the real world has on the learning process. And it recognizes that real learning can occur only when the learner is engaged and able to construct her or his own meaning. Science/Technology/Society As Reform in Science Education is rich with examples of such teaching and learning. It includes impressive research evidence that illustrates that progress has been made and goals have been met. For teachers and administrators alike, this book provides and validates new visions for science education.
Since their release in 1996, the US National Science Standards have provided the vision for science education reform. But has that reform actually taken hold in elementary school? "Yes!" reports Robert Yager, editor of Exemplary Science in Grades PreK - 4: Standards-Based Success Stories, "Probably the Standards have done more to change science in elementary schools than has occurred at the other grade levels. Evidence of change is apparent in this fourth volume of the Exemplary Science monograph series, an essay collection featuring educators in PreK - 4 describing programs they've developed to fulfill the Standards' More Emphasis guidelines. The 14 programs are real-life examples you can learn from in carrying out reforms in teaching, assessment, professional development, and content. Among the topics covered: "Adapting Science Curricula in the Kindergarten Classroom," "Building on the Natural Wonder Inherent in Us All," "Guiding Students in Active and Extended Scientific Inquiry," "Active Integrated Inquiry in an Afterschool Setting," and "Thinking Outside the Box: No Child Left Inside!" As Yager writes in the book's introduction, "The 14 exemplary programs can be seen as models for other teachers, not just to copy, but as ways of approaching science and encouraging their students to do more of what they like..." When both teachers and students are enthused, curious, and involved, science becomes central to the lives of students and others in the community and can tie the whole school experience together.
This is a great book! It provides real examples for teachers, school districts, and teacher education programs to assess science standards in the curriculum.""Fred Bartelheim, ProfessorCollege of Education, University of Northern Colorado, Greeley" "" """An abundance of practical assessment instruments at your fingertips! Checklists, rubrics, real-examples -- it's all fantastic!""Mary Ann Sweet, School CounselorTomball Elementary School, TX"""Finally -- an accessible and practical approach to assessing science education! """""Educators need a way to better assess science curriculum, teaching, and student learning to help our students become leaders, not just followers, in their technological future. Sandra Enger and Robert Yager, two experts in the field, provide the way. Comprehensive but accessible -- this book is packed full of methods for assessing the National Science Education Standards adopted by the National Research Council -- the basis for most state and local standards. Alternative assessments, rubrics, grade level exemplars, and ideas for teachers to evaluate and improve their own curriculum and instruction make this practical hands-on guide a must. This book addresses critical issues of assessment including: Criteria to measure student progress in the six domains of science: concepts, processes, applications, attitude, the nature of science, and creativity Assessing student learning Evaluating teaching practice Designing rubrics and scoring guidesEnger and Yager deftly weave together theory and real-life practice using examples created by teachers in the field. A rich resourcesection offers an in-depth glossary and examples and samples specific to grade levels. The book will be invaluable to individual teachers as well as to districts in developing district-wide assessment of state and local standards.
Amid a flurry of national standards and high-stakes assessments, it's easy to overlook the curiosity and invention that is inherent to science and that should be central to any science lesson plan. Similarly, the connections between what students learn in the classroom and the issues facing our society are often lost in the race to cover the content. This title focuses on how to successfully draw on these problems to illustrate the use and understanding of science for all learners.
In this collection of 15 essays, educators describe successful programs they've developed to fulfill the US National Science Education Standards' vision for the reform of teaching assessment, professional development, and content at the high school level. All the visions correspond with the Less Emphasis and More Emphasis conditions that conclude each section of the Standards, characterizing what most teachers and programs should do less of as well as describing the changes needed if real reform is to occur. Essay titles reveal the range of programs, and creativity, this book encompasses. Among the titles are: "Technology and Cooperative Learning: The IIT Model for Teaching Authentic Chemistry Curriculum," "Modeling: Changes in Traditional Physics Instruction," "Guided by the Standards: Inquiry and Assessment in Two Rural and Urban Schools," and even "Sing and Dance Your Way to Science Success." The book ends with a summary chapter by editor Robert Yager on successes and continuing challenges in meeting the Standards' visions for improving high school science. As Yager notes, "The exemplary programs described in this monograph give inspiration while also providing evidence that the new directions are feasible and worth the energy and effort needed for others to implement changes.
World Book 1987, Annual Science Supplement. Cumulative index of topics for the year 1986. Some topics are: The monarch butterfly, galaxies, eating habits such as anorexia nervosa and bulilia, lightening, Madagascar, computer imaging, AIDS, Mars, lasers, the brains' right and left side, archaeology, 3-D maps of earth, Grace M. Hopper, pioneer in development of computers; Max Planck Society, and others.
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