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This book begins with an exposition of principles for the organization and teaching of industrial arts in elementary schools, and continues with examples of how these principles are applied, with lesson suggestions and objectives. Some activities are constructive, some are investigative, and some are appreciative, but all involve participation. All exercises are a means of awakening intellectual inquiry, giving meaning and values, cultivating appreciations, and leading to further interests. Aided by observation, experimentation, and reading, children should not only acquire useful information, but develop their ability to see projects to a successful conclusion, while seeing tangible results for their efforts. Designed for teachers, the lessons are adaptable to many types of school settings.
Engineering education is emerging as an important component of US K-12 education. Across the country, students in classrooms and after- and out-of-school programs are participating in hands-on, problem-focused learning activities using the engineering design process. These experiences can be engaging; support learning in other areas, such as science and mathematics; and provide a window into the important role of engineering in society. As the landscape of K-12 engineering education continues to grow and evolve, educators, administrators, and policy makers should consider the capacity of the US education system to meet current and anticipated needs for K-12 teachers of engineering. Building Capacity for Teaching Engineering in K-12 Education reviews existing curricula and programs as well as related research to understand current and anticipated future needs for engineering-literate K-12 educators in the United States and determine how these needs might be addressed. Key topics in this report include the preparation of K-12 engineering educators, professional pathways for K-12 engineering educators, and the role of higher education in preparing engineering educators. This report proposes steps that stakeholders - including professional development providers, postsecondary preservice education programs, postsecondary engineering and engineering technology programs, formal and informal educator credentialing organizations, and the education and learning sciences research communities - might take to increase the number, skill level, and confidence of K-12 teachers of engineering in the United States.
This sampler was designed for art specialists and art museum educators with a basic understanding of teaching discipline-based art education content. The introduction offers a brief history of the Sampler and explains its intended purpose and use. Then 8 unit models with differing methodologies for relating art objectives to the four disciplines: aesthetics, art criticism, art history, and art production, are presented. The sampler consists of two elementary units, two units for middle school, two units intended for required high school art, one high school studio ceramic unit, and a brief unit for art teachers and art museum educators that focuses on visits to art museums. Learning activities, resource material, and learning strategies are given for the units along with a sequence of lessons organized on a theme.
Harness natural curiosity for conceptual understanding! Nurture young learners’ innate curiosity about the world and bring intellectual rigor throughout the developmental stages of childhood. Concept-based teaching helps students uncover conceptual relationships and transfer them to new problems. Readers of this must-have road map for implementing concept-based teaching in elementary classrooms will learn • Why conceptual learning is a natural fit for children • Strategies for introducing conceptual learning • Instructional strategies to help students uncover and transfer concepts • How to write lessons, assess understanding, and differentiate in a concept-based classroom • How concept-based teaching aligns with best practices and initiatives
For the first time, the award-winning Education Department of the J. Paul Getty Museum is making one of its much-lauded K–12 curricula available nationwide in an attractive and inexpensive print format. Art & Science was developed by the Getty’s expert educators, scientists, curators, and conservators, and tested by classroom teachers, and it connects to national and California state standards. Teachers and parents will find engaging lessons and activities divided into beginning, intermediate, and advanced levels for step-by-step learning. Art & Science mines the treasures of the Getty Museum to explore the many intersections of the visual arts with scientific disciplines. Full-color images of antiquities, decorative arts, drawings, manuscripts, painting, photography, and sculpture illuminate lesson plans about, for example: • The laws of physics that keep a bronze sculpture of a juggler from tipping over • The science that allows photographers to manipulate light and capture images on paper • The processes of radiation and convection that turn clay into porcelain • Scientific observation of the natural world as the subject for art • How scientists removed 2,000 years of oxidation and encrustation to reveal a priceless ancient sculpture The curriculum also contains a trove of resources, including handouts, “Questions for Teaching,” a timeline, glossary, and list of print and web sources for further research. There are also links to additional related lessons and images available on the Getty website. The full-page color images and special “lay flat” binding of Art & Science make it ideal for use with a digital document reader.