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Standard math and science textbooks typically follow a deductive style of content presentation that involves too much lecturing, too much of the teacher’s back at the chalkboard, too little interaction with students, and too little time for all of the students to take adequate notes. By reading and using A Teaching Guide to Revitalizing STEM Education, educators will rediscover how to streamline the subject matter— math, physics, statistics, and organic chemistry—by eliminating unnecessary difficulties and distractions from course textbooks. A useful guide for both high school teachers and postsecondary faculty, this book explains how to organize, arrange, and streamline STEM content so that it is approachable, understandable, and applicable for students. Likewise, this guide discusses important classroom management skills and pedagogical techniques that will help students master these critical subjects. Providing and explaining over a dozen lesson plans, A Teaching Guide to Revitalizing STEM Education will encourage educators to effectively optimize the recent emphases on science, technology, engineering, and math education.
Study conducted in Haryana, India.
In the face of complex local and global problems, there is a critical need to prepare PK-12 students to be innovative, resilient problem-solvers and well-equipped STEM-literate citizens. With focus upon integrated content, college and career readiness, authentic problems, and action-oriented pedagogies, integrative STEM education provides a promising approach to address this challenge. Integrative STEM programming with its fusion of science, mathematics, engineering, and technology content and practices may manifest in a variety of ways: Teachers co-plan an engineering design experience within a social studies class. A community business partner offers a job-shadowing experience. Students engage in an after-school program at a makerspace. Educators collaboratively re-envision and interweave STEM across the curriculum. And more... Current and future educational leaders striving to improve STEM programming will find this book to be a useful resource. Its introduction offers an orientation to the fundamental goals, principles, and practices of integrative STEM education. While later chapters delve into the facets of STEM programming and the competencies of STEM leadership which form the foundation of a coherent program. These evidence-based strategies, examples, and resources may provide inspiration to leaders as they initiate and enhance an equitable integrative STEM culture within their school.
"In this film you'll learn-- among other things-- that evolution and religion are, indeed, compatible ways of looking at the world; that Darwin was a creationist before he was an evolutionist; and that cooperation is just as important as competition in the struggle for existence." --From Hummingbird Films website.
In the early twentieth century, a curriculum known as nature study flourished in major city school systems, streetcar suburbs, small towns, and even rural one-room schools. This object-based approach to learning about the natural world marked the first systematic attempt to introduce science into elementary education, and it came at a time when institutions such as zoos, botanical gardens, natural history museums, and national parks were promoting the idea that direct knowledge of nature would benefit an increasingly urban and industrial nation. The definitive history of this once pervasive nature study movement, TeachingChildren Science emphasizes the scientific, pedagogical, and social incentives that encouraged primarily women teachers to explore nature in and beyond their classrooms. Sally Gregory Kohlstedt brings to vivid life the instructors and reformers who advanced nature study through on-campus schools, summer programs, textbooks, and public speaking. Within a generation, this highly successful hands-on approach migrated beyond public schools into summer camps, afterschool activities, and the scouting movement. Although the rich diversity of nature study classes eventually lost ground to increasingly standardized curricula, Kohlstedt locates its legacy in the living plants and animals in classrooms and environmental field trips that remain central parts of science education today.
This book presents the authentic voices of science teachers engaged in practitioner inquiry as one component of a comprehensive professional development program. Practitioner inquiry as a genre of educational research, allows teachers to intentionally study their practices thus generating practical solutions to problems in their teaching and students’ learning. The teachers’ voices allowed us to enter their science classrooms to observe their posture and practices as reflective practitioners. They encountered issues such as culturally responsive teaching and low literacy proficiency and metacognitive skills among their struggling science learners. Their firsthand accounts provide new insights about practitioner inquiry as a tool to support teachers continuous learning, regardless of the disciplinary content areas. The book therefore provides a blueprint that can inform inservice teacher educators and support school and district administrators as they seek to nurture teachers’ professional growth.
Findings generated by recent research in science education, international debate on the guiding purposes of science education and the nature of scientific and technological literacy, official and semi-official reports on science education (including recommendations from prestigious organizations such as AAAS and UNESCO), and concerns expressed by scientists, environmentalists and engineers about current science education provision and the continuing low levels of scientific attainment among the general population, have led to some radical re-thinking of the nature of the science curriculum.