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Safer hands-on STEM is essential for every instructor and student. Read the latest information about how to design and maintain safer makerspaces, Fab Labs and STEM labs in both formal and informal educational settings. This book is easy to read and provides practical information with examples for instructors and administrators. If your community or school system is looking to design or modify a facility to engage students in safer hands-on STEM activities then this book is a must read!This book covers important information, such as: Defining makerspaces, Fab Labs and STEM labs and describing their benefits for student learning.· Explaining federal safety standards, negligence, tort law, and duty of care in terms instructors can understand.· Methods for safer professional practices and teaching strategies.· Examples of successful STEM education programs and collaborative approaches for teaching STEM more safely.· Safety Controls (engineering controls, administrative controls, personal protective equipment, maintenance of controls).· Addressing general safety, biological and biotechnology, chemical, and physical hazards.· How to deal with various emergency situations.· Planning and design considerations for a safer makerspace, Fab Lab and STEM lab.· Recommended room sizes and equipment for makerspaces, Fab Labs and STEM labs.· Example makerspace, Fab Lab and STEM lab floor plans.· Descriptions and pictures of exemplar makerspaces, Fab Labs and STEM labs.· Special section answering frequently asked safety questions!
The FabLearn Fellows share inspirational ideas from their learning spaces, assessment strategies and recommended projects across a broad range of age levels. Illustrated with color photos of real student work, the Fellows take you on a tour of the future of learning, where children make sense of the world by making things that matter.
This book makes a strong case for the abiding relevance of Dewey’s notion of learning through experience, with a community of others, and what this implies for democratic 21st century education. Curricular and policy contexts in Spain, Cameroon, the US and the UK, explore what reading Dewey contributes to contemporary education studies.
This book brings together authors from around the world to discuss the Standards for Technological and Engineering Literacy: The Role of Technology and Engineering in STEM Education (STEL) released in July 2020 by the International Technology and Engineering Educators Association (ITEEA). The various chapters examine and elaborate on how educators must understand the structure of the standards used and their alignment with educational programs at specific levels and contexts, both in the context of the USA, and internationally. It also showcases case studies analyzing the use of standards in their various contexts from a number of countries which have either adapted STEL, or which have national Standards in Technology Education. The STEL represents a major update to the content standards that has guided the field of technology education (and, later, technology and engineering education) in the USA since 2000. In contrast to previous standards, STEL presents a substantial reduction in the number of standards and associated benchmarks, and the benchmarks have been operationalized to identify the key knowledge, skills, and dispositions associated with each standard. It also emphasizes a focus on core standards that should allow for deeper levels of understanding and engagement on the part of students, who in comprehensive educational programs will continue to revisit these core standards in increasingly sophisticated ways as they progress from Pre-K through Grade 12.
Gain insights and clear guidelines for developing the robust partnerships and processes you need to build a successful STEM lab in your school. Few resources are available for district and school leaders looking to establish successful STEM labs. Frequently, efforts do not gain traction because they lack a systemic approach and the support of a broad spectrum of stakeholders within the school community. Unlike other books, Building a K-12 STEM Lab addresses this challenge from the perspective of the leader, identifying opportunities for capacity building and ensuring equal access and equity for all students. This book will: • Address key issues in building a STEM Lab, including budgetary constraints, space limitations, technology design and resources, and inclusivity. • Provide step-by-step guidelines designed to meet the diverse needs of a wide range of educational environments. • Include vignettes describing the experiences of a variety of schools – public, private, rural, urban – at different levels – elementary, middle school, and high school – that have successfully established STEM labs in their schools. The comprehensive and flexible approach outlined in this book will help school and district leaders develop productive community partnerships in support of STEM education within the STEM lab and throughout the school.
What if you could someday put the manufacturing power of an automobile plant on your desktop? It may sound far-fetched-but then, thirty years ago, the notion of "personal computers" in every home sounded like science fiction. According to Neil Gershenfeld, the renowned MIT scientist and inventor, the next big thing is personal fabrication -the ability to design and produce your own products, in your own home, with a machine that combines consumer electronics with industrial tools. Personal fabricators (PF's) are about to revolutionize the world just as personal computers did a generation ago. PF's will bring the programmability of the digital world to the rest of the world, by being able to make almost anything-including new personal fabricators. In FAB , Gershenfeld describes how personal fabrication is possible today, and how it is meeting local needs with locally developed solutions. He and his colleagues have created "fab labs" around the world, which, in his words, can be interpreted to mean "a lab for fabrication, or simply a fabulous laboratory." Using the machines in one of these labs, children in inner-city Boston have made saleable jewelry from scrap material. Villagers in India used their lab to develop devices for monitoring food safety and agricultural engine efficiency. Herders in the Lyngen Alps of northern Norway are developing wireless networks and animal tags so that their data can be as nomadic as their animals. And students at MIT have made everything from a defensive dress that protects its wearer's personal space to an alarm clock that must be wrestled into silence. These experiments are the vanguard of a new science and a new era-an era of "post-digital literacy" in which we will be as familiar with digital fabrication as we are with the of information processing. In this groundbreaking book, the scientist pioneering the revolution in personal fabrication reveals exactly what is being done, and how. The technology of FAB will allow people to create the objects they desire, and the kind of world they want to live in.
Created by Maker Ed with input from the wider maker education community, the Youth Makerspace Playbook provides context and support for those planning spaces for youth to make. In particular, it offers practical suggestions on finding a space to make, outfitting the space with tools and materials, exploring the possible educational approaches within the space, and sustaining the space in the long-term. With this resource, Maker Ed aims to empower and support educators and community members looking to start a youth-oriented makerspace. Of the Playbook, Warren (Trey) Lathe III, Maker Ed's Executive Director shared, "We know that starting and sustaining youth makerspaces is hard work and can feel overwhelming at times. By offering these resources, we hope to lower the real and perceived barriers for educators and community members to create fun and safe youth-oriented makerspaces, so that young people everywhere have the chance to gain confidence, creativity, and a passion for learning through making." Maker Ed is a non-profit organization that supports and empowers educators and communities - particularly, those in underserved areas - to facilitate meaningful making and learning experiences with youth. Maker Ed's mission is to create more opportunities for all young people to develop confidence, creativity, and interest in science, technology, engineering, math, art, and learning as a whole through making. For more information about Maker Ed, please visit http: //makered.org/
A field manual to the technologies that are transforming our lives Everywhere we turn, a startling new device promises to transfigure our lives. But at what cost? In this urgent and revelatory excavation of our Information Age, leading technology thinker Adam Greenfield forces us to reconsider our relationship with the networked objects, services and spaces that define us. It is time to re-evaluate the Silicon Valley consensus determining the future. We already depend on the smartphone to navigate every aspect of our existence. We’re told that innovations—from augmented-reality interfaces and virtual assistants to autonomous delivery drones and self-driving cars—will make life easier, more convenient and more productive. 3D printing promises unprecedented control over the form and distribution of matter, while the blockchain stands to revolutionize everything from the recording and exchange of value to the way we organize the mundane realities of the day to day. And, all the while, fiendishly complex algorithms are operating quietly in the background, reshaping the economy, transforming the fundamental terms of our politics and even redefining what it means to be human. Having successfully colonized everyday life, these radical technologies are now conditioning the choices available to us in the years to come. How do they work? What challenges do they present to us, as individuals and societies? Who benefits from their adoption? In answering these questions, Greenfield’s timely guide clarifies the scale and nature of the crisis we now confront —and offers ways to reclaim our stake in the future.
Libraries today, regardless of their type or location, are reliant on technology. Almost every process or procedure in the library is dependent upon skilled use of computers, hardware, and software. Integrated library and discovery systems enable patrons to manage activities such as creating lists and holds, to perform self-checkout, and to search multiple library catalogs and databases simultaneously. This text is written for the library support staff who are the backbone of technology success. Each chapter provides a practical overview of how the technology advances library services. With abundant examples of how to apply the technology in real situations, it is an essential handbook for students entering into the library profession as well as for those who seek to become more confident and competent with these technologies and more: Computer hardware and peripherals Integrated Library and Discovery systems Software applications Open Source Cloud Computing Mobile applications Networking Infrastructure Online Meetings Social Media Mobile Technologies Digital media equipment STEM/STEAM Makerspaces Coding and Robotics Cybersecurity The Library Support Staff series is aimed for staff that work in libraries and want to enhance their skills, college professors who teach library support staff instruction, and students who seek new learning in the library profession. Each book in the series addresses a specific topic in an academic curriculum for library support staff. Content of each book in the series is aligned with American Library Association competencies for accredited programs and learning for library support staff (ALA-LSSC). The text is written in clear language with practical examples of how performance can contribute to exemplary library service.
Creating powerful learning environments Anyone can create a makerspace. This is the guide to creating a GREAT makerspace. Written by makerspace pioneer Laura Fleming, The Kickstart Guide to Making GREAT Makerspaces is filled with step-by-step, practical ideas that demystify the process of planning and creating a makerspace. Its workbook style ensures that by the time educators are done reading, they have a ready-to-implement plan, personalized for their classroom, school, or district. Readers will find A wealth of examples of great makerspaces in action Activities and strategies for inspiring making across the curriculum Plenty of room and guidance for brainstorming and developing a personalized plan