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Simple answers to 100 truly perplexing questions. Curiosity spans all ages as kids, teenagers and adults have lots of questions about everyday occurrences they never think to ask. Why does syrup spiral off the spoon? Which metals can be recycled? The answers to these and 98 other important questions about life, the universe and a whole lot more are found in Why Does a Ball Bounce? Fully illustrated with color photographs, this book explains complex ideas in easy-to-understand terms. The book's 100 questions are organized into the following topics: Air: bouncing balls, bursting bubbles, fizzy drinks Earth: mountain-making, lava, the age of the Earth Plants: sowing wild oats, why the numbers 3, 5, 8, and 13 crop up so often in plants Fire and ice: the sparkler's sparks, why skates slide, what is dew Water: why water ripples, how soap works, bouncing rain Food: seeing underground, why barley needs the sun Weather: overflowing drains, sky color, seeing the wind Electricity: why electricity sparks, hair standing on end, shrinking computers Mathemagic: seeing musical notes, how knots work, swinging pendulums Little critters: worm heads, how slugs breathe, patient spiders Health and sickness: dilating pupils, smoking facts, vaccination safety Technology: level playing fields, stone age tools, the first computer. Why Does A Ball Bounce? is the ideal title for anyone who needs to explain these ideas to children, students... or just to themselves.
Flash is fading fast as Canvas continues to climb. The second edition of this popular book gets you started with HTML5 Canvas by showing you how to build interactive multimedia applications. You’ll learn how to draw, render text, manipulate images, and create animation—all in the course of building an interactive web game throughout the book. Updated for the latest implementations of Canvas and related HTML5 technologies, this edition includes clear and reusable code examples to help you quickly pick up the basics—whether you currently use Flash, Silverlight, or just HTML and JavaScript. Discover why HTML5 is the future of innovative web development. Create and modify 2D drawings, text, and bitmap images Use algorithms for math-based movement and physics interactions Incorporate and manipulate video, and add audio Build a basic framework for creating a variety of games Use bitmaps and tile sheets to develop animated game graphics Go mobile: build web apps and then modify them for iOS devices Explore ways to use Canvas for 3D and multiplayer game applications
Bounce a ball right off your hands. Bounce it off your toes. Try to bounce a beach ball on the tip of your nose! Doreen Cronin and Scott Menchin, who had toddlers all over America jiggling with Wiggle, invite them now to hop, leap, pounce, and bounce to their hearts' content (though not on couches!). Because, after all, it's better to have bounced and bumped than never to have bounced at all.
An application of the techniques of dynamical systems and bifurcation theories to the study of nonlinear oscillations. Taking their cue from Poincare, the authors stress the geometrical and topological properties of solutions of differential equations and iterated maps. Numerous exercises, some of which require nontrivial algebraic manipulations and computer work, convey the important analytical underpinnings of problems in dynamical systems and help readers develop an intuitive feel for the properties involved.
This revised and expanded bestseller includes a new chapter on putting, a new appendix on the fundamental physics covered in the book, increased coverage of modern club design, and an updated reference section. As in the previous book, most of the mathematics is relegated to a technical appendix. The first edition of this book was enthusiastically received by the both the science press in Physics Today, IEEE Spectrum, and Nature and the golf world in American Golf Pro and Golf Week.
This is the story of Orville the Iron Ore as he finds new friends, conquers challenges, and with a little help, achieves his dreams of becoming something HUGE.Through this story aimed at inspiring kids to learn new topics through creative story telling, we get a glimpse into the life of Orville the Iron Ore's life as he starts off a journey to be made into steel. He meets new friends, faces troubles along the way, but learns that if you stick together, great things can be accomplished. The story of Orville is great for young readers all the way to intermediate readers. Not only will the story keep children entertained, it will also teach them about how Iron Ore goes from the ground into HUGE skyscrapers! The colorful illustration and creative storytelling allow for children of all ages to learn something new along the way.
"Granular Gases" are diluted many-particle systems in which the mean free path of the particles is much larger than the typical particle size, and where particle collisions occur dissipatively. The dissipation of kinetic energy can lead to effects such as the formation of clusters, anomalous diffusion and characteristic shock waves to name but a few. The book is organized as follows: Part I comprises the rigorous theoretical results for the dilute limit. The detailed properties of binary collisions are described in Part II. Part III contains experimental investigations of granular gases. Large-scale behaviour as found in astrophysical systems is discussed in Part IV. Part V, finally, deals with possible generalizations for dense granular systems.
What is gravity? Why don't skydivers fly off into space? Do heavy objects fall faster than light objects? Curious minds will delightedly find the answers to these and other questions about gravity in this colorful and fact-filled book.
Plagued hackers and experts alike. This informative primer will help turn hours of mindless practice into a focused application of principles affecting the impact, bounce, and flight of the ball.
Whether you are throwing and catching in your backyard, playing touch football, or receiving the kick-off at the Super Bowl, you are demonstrating the laws of physics. Get an edge on your competitors with this informative book, which reveals the science of the game. Discover how air resistance and friction affects how a ball travels, how torque helps make a tackle, and why kinetic energy and impact make helmets necessary.