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**This is the chapter slice "Inclined Planes, Wedges, and Screws" from the full lesson plan "Simple Machines"** Just how simple are simple machines? With our ready-to-use resource, they are simple to teach and easy to learn! Chocked full of information and activities, we begin with a look at force, motion and work, and examples of simple machines in daily life are given. With this background, we move on to different kinds of simple machines including: Levers, Inclined Planes, Wedges, Screws, Pulleys, and Wheels and Axles. An exploration of some compound machines follows, such as the can opener. Our resource is a real time-saver as all the reading passages, student activities are provided. Presented in simplified language and vocabulary that will give your students a kick start on learning. Includes color mini posters, hands-on activities, Crossword, Word Search and Final Quiz. All of our content meets the Common Core State Standards and are written to Bloom's Taxonomy and STEM initiatives.
Introduces six simple machines, describing how they work in more complex machinery and how they are used every day.
Create 3D printable models that can help students from kindergarten through grad school learn math, physics, botany, chemistry, engineering and more. This book shows parents and teachers how to use the models inside as starting points for 3D printable explorations. Students can start with these models and vary them for their own explorations. Unlike other sets of models that can just be scaled, these models have the science built-in to allow for more insight into the fundamental concepts. Each of the eight topics is designed to be customized by you to create a wide range of projects suitable for science fairs, extra credit, or classroom demonstrations. Science fair project suggestions and extensive "where to learn more" resources are included, too. You will add another dimension to your textbook understanding of science. What You'll Learn Create (and present the science behind) 3D printed models. Use a 3D printer to create those models as simply as possible. Discover new science insights from designing 3D models. Who This Book Is For Parents and teachers
"Simple Machines! introduces kids to the concept of mechanical advantage and harnesses kid-power by inviting them to build machines of their own design. This book also opens eyes and minds to the diversity of machines in their lives, and sparks the imagination with challenge, humor, and achievable projects"--Publisher.
The 15 lessons in this module introduce students to simple machines, including levers, wheels and axles, gears, pulleys, inclined planes, screws, and wedges. Students investigate how these simple machines work together in systems and use this knowledge to design and construct their own device containing a system of simple machines.Also included:materials lists activity descriptions questioning techniques activity centre and extension ideas assessment suggestions activity sheets and visuals The module offers a detailed introduction to the Hands-On Science program (guiding principles, implementation guidelines, an overview of the skills that young students use and develop during scientific inquiry), a list of children's books and websites related to the science topics introduced, and a classroom assessment plan with record-keeping templates.
Award-winning artist David Macaulay introduces readers to his hilarious new creations, Sloth and Sengi, in How Machines Work: Zoo Break! Get your cogs turning with these mega machines! This amazing, award-winning visual guide showcases the science and technology behind the most important machines ever invented. How Machines Work is a unique book full of inspiring illustrations by award-winning artist David Macaulay and packed with interactive elements, including press-out models, pop-ups, and pull-outs. Sloth and his sidekick Sengi are two furry friends on hand to guide you through the book and break down the basics. They’ll give you the lowdown on levers, pulleys, screws, inclined planes, wedges, and wheels on this intrepid adventure. You’ll find out how all different technologies work, from bicycles, cranes, and drills to diggers, hammers, and zips. Along the way, you’ll help Sloth and Sengi plot their daring escape from the zoo using only newfound scientific knowledge to make a machine designed for break outs and break aways. But will they succeed? Grab this essential guide, get your brain in gear, and get set for engineering greatness.
Connect students in grades 5 and up with science using Simple Machines. This 80-page book includes subject-specific concepts and terminology, inquiry-based activities, challenge questions, extension activities, assessments, curriculum resources, a bibliography, and materials lists. The book supports National Science Education Standards, NCTM standards, and Standards for Technological Literacy.
Just how simple are simple machines? Our resource makes these machines simple to teach and easy to learn. Understand that work is when a thing moves in the direction that a force is acting on it. Conduct an experiment with first-class levers to study distance and force. Explain how a wheel and axle can be used as a lever. Identify the three different kinds of pulleys. Find the resistance force when walking up an inclined plane. Figure out the direction of the effort force when using a wedge to split a log. Explain how a screw is a kind of inclined plane. Visit a hardware store to find as many simple and complex machines as possible. Aligned to the Next Generation State Standards and written to Bloom's Taxonomy and STEAM initiatives, additional hands-on experiments, crossword, word search, comprehension quiz and answer key are also included.
Give your students a kick start on learning with our Force and Motion 3-book BUNDLE. Students begin by exploring different Forces. Conduct several experiments on the force of friction and air resistance. Understand that acceleration and deceleration are examples of unbalanced forces. Next, take the mystery out of Motion. Graph the velocity of students walking home from school at different speeds. Follow directions to find your way using a treasure map. Finally, get familiar with Simple Machines. Conduct an experiment with first-class levers to study distance and force. Find the resistance force when walking up an inclined plane. Each concept is paired with hands-on activities and experiments. Aligned to the Next Generation State Standards and written to Bloom's Taxonomy and STEAM initiatives, additional crossword, word search, comprehension quiz and answer key are also included.