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Merry Christmas! The internet phenomenon #DrawWithRob is now a fantastically festive art activity book for you to draw with Rob at home... The second book based on the viral videos seen everywhere on YouTube, Facebook, TikTok, TV, and more, from the creative genius and bestselling author Rob Biddulph! Christmas is different this year, with more families at home and wondering what to do! Pick up your pencils and join thousands of children around the world and #DrawWithRob - celebrating Christmas has never been so much fun! The first DRAW WITH ROB activity book went to Number One in the charts and was named 'Book of the Year' at the 2020 Sainsbury's Children's Book Awards! Now every family can share this fantastically festive new art activity book for Christmas. Join Rob and learn to draw your favourite Christmas characters - from Polar Bears to Elves and from Father Christmas to a Snowman, this perfect present is packed with arts, crafts and festive fun. The bestselling and award-winning author/illustrator Rob Biddulph is the genius behind the phenomenal, viral sensation that is DRAW WITH ROB and the accompanying activity book, and now the sensational DRAW WITH ROB AT CHRISTMAS - bringing joy to families everywhere with his easy to follow instructions and warm-hearted humour. So whether you're in home education, home-schooling, learning to draw or just having fun, let Rob show you that anyone can learn to #DrawWithRob! *WITH PERFORATED PAGES SO YOU CAN EASILY TEAR OUT AND DISPLAY YOUR ART!* Rob's original hit videos are also available at www.robbiddulph.com, and on Facebook, YouTube, TikTok, and Instagram, with Rob appearing on TV to talk about them too. Perfect stay-at-home fun for boys, girls, and everyone aged three to one hundred and three, and a wonderful introduction to Rob Biddulph's bestselling picture book range - including the Waterstones Children's Book Prize-winning Blown Away, Odd Dog Out, and many more! Available in all good bookstores and online retailers, and perfect for children who are learning to read - or just love to!
Based on the principles of engineering science, physics and mathematics, but assuming only an elementary understanding of these, this textbook masterfully explains the theory and practice of the subject. Bringing together key topics, including the chassis frame, suspension, steering, tyres, brakes, transmission, lubrication and fuel systems, this is the first text to cover all the essential elements of race car design in one student-friendly textbook. It avoids the pitfalls of being either too theoretical and mathematical, or else resorting to approximations without explanation of the underlying theory. Where relevant, emphasis is placed on the important role that computer tools play in the modern design process. This book is intended for motorsport engineering students and is the best possible resource for those involved in Formula Student/FSAE. It is also a valuable guide for practising car designers and constructors, and enthusiasts.
After building his first race cars out of southern Louisiana junkyards, Bob Riley quickly established himself as a leading light, if not genius, when it came to race car design. His first major suspension design helped Henry Ford II make good on his vendetta to beat Enzo Ferrari at Le Mans. Riley's first radical Indy car designs with its ingenious center hub mounted suspension resulted in A.J. Foyt's landmark fourth victory at the Indianapolis 500 in 1977. Since then, Riley has continued to be at the heart of the world of motorsports, working with its most famous drivers at the biggest events, including the Daytona 500, where his engineering helped Dale Earnhardt finally win NASCAR's marquee event. Americans love the "genius" angle like everyone else. They love winners. Sports stars are overtaking Hollywood these days in popularity. Racing readers are a small but predictable group and suspect the generation familiar with Bob's exploits at Indy would be keen on a book like this. They're the same age group pumping up the vintage magazine market and the collectible car market.
The first book to summarize the secrets of the rapidly developing field of high-speed vehicle design. From F1 to Indy Car, Drag and Sedan racing, this book provides clear explanations for engineers who want to improve their design skills and enthusiasts who simply want to understand how their favorite race cars go fast. Explains how aerodynamics win races, why downforce is more important than streamlining and drag reduction, designing wings and venturis, plus wind tunnel designs and more.
This set includes Race Car Vehicle Dynamics, and Race Car Vehicle Dynamics - Problems, Answers and Experiments. Written for the engineer as well as the race car enthusiast, Race Car Vehicle Dynamics includes much information that is not available in any other vehicle dynamics text. Truly comprehensive in its coverage of the fundamental concepts of vehicle dynamics and their application in a racing environment, this book has become the definitive reference on this topic. Although the primary focus is on the race car, the engineering fundamentals detailed are also applicable to passenger car design and engineering. Authors Bill and Doug Milliken have developed many of the original vehicle dynamics theories and principles covered in this book, including the Moment Method, "g-g" Diagram, pair analysis, lap time simulation, and tyre data normalization. The book also includes contributions from other experts in the field. Chapters cover: *The Problem Imposed by Racing *Tire Behavior *Aerodynamic Fundamentals *Vehicle Axis Systems and more. Written for the engineer as well as the race car enthusiast and students, the companion workbook to the original classic book, Race Car Vehicle Dynamics, includes: *Detailed worked solutions to all of the problems *Problems for every chapter in Race Car Vehicle Dynamics, including many new problems *The Race Car Vehicle Dynamics Program Suite (for Windows) with accompanying exercises *Experiments to try with your own vehicle *Educational appendix with additional references and course outlines *Over 90 figures and graphs This workbook is widely used as a college textbook and has been an SAE International best seller since it's introduction in 1995.
Hand-selected by racing engineer legend Carroll Smith, the 28 SAE Technical Papers in this book focus on the chassis and suspension design of pure racing cars, an area that has traditionally been - farmed out - to independent designers or firms since the early 1970s. Smith believed that any discussion of vehicle dynamics must begin with a basic understanding of the pneumatic tire, the focus of the first chapter. The racing tire connects the racing car to the track surface by only the footprints of its four tires. Through the tires, the driver receives most of the sensory information needed to maintain or regain control of the race car at high force levels. The second chapter, focusing on suspension design, is an introduction to this complex and fascinating subject. Topics covered include chassis stiffness and flexibility, suspension tuning on the cornering of a Winston Cup race car, suspension kinematics, and vehicle dynamics of road racing cars. Chapter 3 addresses the design of the racing chassis design and how aerodynamics affect the chassis, and the final chapter on materials brings out the fact that the modern racing car utilizes carbon construction to the maximum extent allowed by regulations. These technical papers, written between 1971 and 2003, offer what Smith believed to be the best and most practical nuggets of racing chassis and suspension design information.
'Adrian has a unique gift for understanding drivers and racing cars. He is ultra competitive but never forgets to have fun. An immensely likeable man.' Damon Hill
Though students aren’t yet old enough to drive, that doesn’t mean they can’t satisfy their need for speed. Author and physics teacher Bobby Mercer will show readers 25 easy-to-build racecars that can be driven both indoors and out. Better still, each of these vehicles is constructed for little or no cost using recycled and repurposed materials. The Racecar Book will teach readers how to use mousetraps, rubber bands, chemical reactions, gravity, and air pressure to power these fast-moving cars. They will learn how to turn a potato chip can, a rubber band, and weights into a Chip-Can Dancer, or retrofit a toy car with a toy plane propeller to make an air-powered Prop Car. An effervescent tablet in a small canister makes an impressive rocket engine for a Mini Pop Car, and old CDs, a small cardboard food box, and drinking straws become a Mac-n-Cheese Roller. Every hands-on project contains a materials list and detailed step-by-step instructions. Mercer also includes explanations of the science behind each racecar, including concepts such as friction, Newton’s laws of motion, kinetic and potential energy, and more. Teachers will appreciate the opportunity to augment their STEM curricula while having fun at the same time. These projects are also perfect for science fairs or design competitions. Bobby Mercer has been a high school physics teacher for over two decades. He is the author of The Flying Machine Book and Smash It! Crash It! Launch It! and lives with his family outside of Asheville, North Carolina.
A Practical Guide to Race Car Data Analysis was written for the amateur and lower-level professional racers who either have a data system in their cars or who may be thinking about installing one but who do not have access to an experienced data engineer. Many of the data systems available today at reasonable prices offer capabilities that only professional race teams could afford just a few years ago. Unfortunately, most of these racers do not know how to use more than a small part of those capabilities. Using real track data, numerous real-world examples, and more than 200 illustrations, the Guide gives them the knowledge and skills they need to select, configure and use their data systems efficiently and effectively.Beginning with a detailed discussion of the things racers need to know about the hardware and software necessary for a an effective data system, the Guide continues with chapters on basic data analysis tools, more sophisticated data analysis tools like x-y plots and math channels, damper potentiometers and the wealth of important data they produce, brake and clutch pressure sensors, and creative use of math channels. The Guide concludes with a comprehensive scheme for analyzing data, examples of the data views used with the scheme, and detailed information on how to create and configure the data views.
Want to improve handling, straight-line performance or fuel economy? In that case, you'll achieve best results by modifying your vehicle's aerodynamics. This handbook is a must-read that takes you from testing the standard car through to making sophisticated aerodynamic modifications that have real impact.