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MATH FOR THE AUTOMOTIVE TRADE, 6th Edition, is the practical worktext that can jumpstart automotive repair careers! Starting with beginner math and a review of automobile systems, this book walks students through hands-on problems and exercises, completing repair orders and documents according to manufacturer specs, and checking their work against industry data in the appendices. Important Notice: Media content referenced within the product description or the product text may not be available in the ebook version.
The fully revised Fourth Edition of this industry-standard textbook features all-new material on the business of automotive repair and updated content that keeps pace with the changing technological requirements of the automotive industry. A comprehensive instructional text/workbook, Math for the Automotive Trade shows how to solve the types of math problems faced regularly by automotive technicians. Unique to the book are realistic practice exercises that allow readers to determine if their answers fall within manufacturers' specifications and repair orders that are completed by finding the appropriate information in the professional literature and reference material, included in the book's valuable appendices.
The fully revised Fourth Edition of this industry-standard textbook features all-new material on the business of automotive repair and updated content that keeps pace with the changing technological requirements of the automotive industry. A comprehensive instructional text/workbook, Math for the Automotive Trade shows how to solve the types of math problems faced regularly by automotive technicians. Unique to the book are realistic practice exercises that allow readers to determine if their answers fall within manufacturers' specifications and repair orders that are completed by finding the appropriate information in the professional literature and reference material, included in the book's valuable appendices.
Offers formulas and equations for calculating brake horsepower and torque, displacement, stroke, bore, compression ratio, and more
Automotive technicians and students need a firm grasp of science and technology in order to fully appreciate and understand how mechanisms and systems of modern vehicles work. Automotive Science and Mathematics presents the necessary principles and applications with all the examples and exercises relating directly to motor vehicle technology and repair, making it easy for automotive students and apprentices to relate the theory back to their working practice. The coverage of this book is based on the syllabus requirements of the BTEC First in Vehicle Technology, BTEC National in Vehicle Repair and Technology, and the IMI Certificate and Diploma in Vehicle Maintenance and Repair, but will help all automotive students and apprentices at levels 2 and 3 and up to and including HNC/HND, foundation and first degree with their studies and in achieving the Key Skill 'Application of Number' at levels 2 and 3. The book is designed to cater for both light and heavy vehicle courses. Full worked solutions of most exercises are available as a free download for lecturers only from http://textbooks.elsevier.com. Allan Bonnick is a motor vehicle education and training consultant and was formerly Head of Motor Vehicle Engineering, Eastbourne College. He is the author of several established automotive engineering textbooks.
Math for Automotive Technicians is designed to help you learn and apply basic math skills. The first part of the text provides 12 lessons that develop a mastery of basic math skills in the context of automotive service. Coverage includes whole number operations, decimals, greater than/less than, tape measure fractions, conversion, graphs and tables, formulas, measurement, and comparing to specifications. The second part consists of 96 case studies that apply and extend the basic math skills with actual vehicle procedures, data, and specifications. For ease of integration with curricula based on the NATEF standards, the case studies are grouped into automotive service areas, such as chassis systems, engine mechanical, electrical, etc. Answers to odd-numbered practice problems are listed in the back of the text. Math for Automotive Technicians is well-suited for use as either the core text in a dedicated applied math course or a supplemental text in an automotive technology program.
A reference book of math equations used in developing high-performance racing engines, including calculating engine displacement, compression ratio, torque and horsepower, intake and header size, carb size, VE and BSFC, injector sizing and piston speed. --book cover.
Offering examples and applications tailored specifically to the automotive trades, Automotive Mathematics, 1st Edition, gives students a sound background in the mathematical skills necessary to be skilled and competent technicians. Early chapters of the text focus on fundamental mathematics skills such as ratios, percents, measurement systems and geometry; later chapters apply basic skills to topics such as engine balancing, camshaft event timing, modifying compression ratio, planetary gear ratios and hydraulics. Designed with versatility in mind, the text offers diverse problem sets (organized by level of difficulty), flexible organization, and in-depth examples that make math meaningful and relevant to the automotive technology student.
The first of its kind in the UK, the IMA conference on Mathematics in the Automotive Industry was intended to expose typical theoretical problems in this industry and the role that mathematics can play in their solution. The selected papers presented here emphasize the involvement ofengineering science and mathematical modelling in solving problems which arise from complex engineering situations. The automotive industry is concerned crucially with highly practical questions that need answers quickly. The analysis of vehice dynamics and control by automatic software generation and using algebraic manipulation codes is reviewed. Problems of current interest discussed include applying control theory to four-wheel steer, active and semi-active suspensions, continuously variable transmission, anddynamometer control. Further chapters review the modelling of acoustical phenomena in the context of automotive noise due to the engine and tyres. Others discuss the digital computer-induced changes in how the stylist's conception of a car is translated into actual panels and the mathematical definition of surfacefeatures such as pockets, channels, and ribs. Later, there are chapters on the accurate and realistic prediction of air-flow rate, temperature, and flow characteristics to aid engine design; the simulation of flame propagation and knock; and using component models to predict vehicle heating and cooling. The final four chapters discuss finite element analysis of anisotropic deformation and its use in, for example, analysing pressing or stamping operations; the sophisticated thermomechanical modelling of electrical components; and using well-tried algorithms to predict fatigue, and thus producenon-failing components.