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STEM Activity: Extreme Engineering will inspire you with super-fun activities and puzzles related to engineering, including fantastic forces, extraordinary machines, high-tech buildings, eco-energy, computer coding and more! Bite-size factoids explain the engineering theories, inventors and discoveries behind them. Program the driverless car so it reaches the garage, design your own skyscraper, complete the engineering word search, match the inventor to the innovation, and put the skateboard moves in the right order to create the perfect Ollie! These are just some of the write-in activities featured in STEM Activity: Extreme Engineering. Also available: STEM Activity: Sensational Science, STEM Activity: Amazing Maths and STEM Activity: Terrific Technology
"Your adventures begin as you complete a Roman arch by drawing lines to missing bricks, plan a design for a green skyscrapper using energy-saving features, finish drawings of tied-arch bridges, and more awesome engineering activities."--
An inspiring and colourful range of write-in puzzles and activities designed to engage and entertain enquiring young minds. Accompanied by easy-to-understand text explaining scientific facts and stats, and relating them to the real world.
"From the popular The Action Lab channel on YouTube"--Front cover.
"Your adventures begin as you connect the stars to reveal constellations, spot the differences in two space station images, follow bees through a maze to pollinate flowers, unscramble the letters to find renewable energy sources, and more incredible science adventures."--
More and more young people are learning about science, technology, engineering, and mathematics (STEM) in a wide variety of afterschool, summer, and informal programs. At the same time, there has been increasing awareness of the value of such programs in sparking, sustaining, and extending interest in and understanding of STEM. To help policy makers, funders and education leaders in both school and out-of-school settings make informed decisions about how to best leverage the educational and learning resources in their community, this report identifies features of productive STEM programs in out-of-school settings. Identifying and Supporting Productive STEM Programs in Out-of-School Settings draws from a wide range of research traditions to illustrate that interest in STEM and deep STEM learning develop across time and settings. The report provides guidance on how to evaluate and sustain programs. This report is a resource for local, state, and federal policy makers seeking to broaden access to multiple, high-quality STEM learning opportunities in their community.
The widely used STEM education book, updated Teaching and Learning STEM: A Practical Guide covers teaching and learning issues unique to teaching in the science, technology, engineering, and math (STEM) disciplines. Secondary and postsecondary instructors in STEM areas need to master specific skills, such as teaching problem-solving, which are not regularly addressed in other teaching and learning books. This book fills the gap, addressing, topics like learning objectives, course design, choosing a text, effective instruction, active learning, teaching with technology, and assessment—all from a STEM perspective. You’ll also gain the knowledge to implement learner-centered instruction, which has been shown to improve learning outcomes across disciplines. For this edition, chapters have been updated to reflect recent cognitive science and empirical educational research findings that inform STEM pedagogy. You’ll also find a new section on actively engaging students in synchronous and asynchronous online courses, and content has been substantially revised to reflect recent developments in instructional technology and online course development and delivery. Plan and deliver lessons that actively engage students—in person or online Assess students’ progress and help ensure retention of all concepts learned Help students develop skills in problem-solving, self-directed learning, critical thinking, teamwork, and communication Meet the learning needs of STEM students with diverse backgrounds and identities The strategies presented in Teaching and Learning STEM don’t require revolutionary time-intensive changes in your teaching, but rather a gradual integration of traditional and new methods. The result will be a marked improvement in your teaching and your students’ learning.
"Do you love gadgets? Are you fascinated by how things work, the history of inventions, and new products? Then technology is for you!"--
The majority of professors have never had a formal course in education, and the most common method for learning how to teach is on-the-job training. This represents a challenge for disciplines with ever more complex subject matter, and a lost opportunity when new active learning approaches to education are yielding dramatic improvements in student learning and retention. This book aims to cover all aspects of teaching engineering and other technical subjects. It presents both practical matters and educational theories in a format useful for both new and experienced teachers. It is organized to start with specific, practical teaching applications and then leads to psychological and educational theories. The "practical orientation" section explains how to develop objectives and then use them to enhance student learning, and the "theoretical orientation" section discusses the theoretical basis for learning/teaching and its impact on students. Written mainly for PhD students and professors in all areas of engineering, the book may be used as a text for graduate-level classes and professional workshops or by professionals who wish to read it on their own. Although the focus is engineering education, most of this book will be useful to teachers in other disciplines. Teaching is a complex human activity, so it is impossible to develop a formula that guarantees it will be excellent. However, the methods in this book will help all professors become good teachers while spending less time preparing for the classroom. This is a new edition of the well-received volume published by McGraw-Hill in 1993. It includes an entirely revised section on the Accreditation Board for Engineering and Technology (ABET) and new sections on the characteristics of great teachers, different active learning methods, the application of technology in the classroom (from clickers to intelligent tutorial systems), and how people learn.
Explains what a hurricane is and the kind of damage it can cause and speculates on how a hurricane could possibly be harnessed.