Engineering Magazines

Suzuki Motor Company was founded by Michio Suzuki. He had a very successful looming business when he decided to invest in the concept of motorcycle manufacturing in 1920. Suzuki didn’t take the motorcycle world by storm, in stead it was a slow and steady rise to success. There were a variety of motorcycle models that had moderate success. People began to take notice of the Suzuki line of motorcycles after their Diamond Free model won the Mount Fuji Hill Climb in 1953.

In June of 1954, Suzuki implemented their trademark ‘S’ logo that is still used today. They also put their years of observing the motorcycle industry to good use. 1962 saw them as the winner of the Grand Prix World Championship. Suzuki decided to begin selling its motorcycles in the United States in 1963. They have come a long way since that first introduction. Consumers quickly took to the models, finding them to be valuable and reliable.

Suzuki introduced the X-6 Hustler in 1966, becoming their first street legal performance bike. At the time, it was also the fastest 250CC on the market. They followed the success of it with a 500CC model called The Titan. In 1969 Suzuki took the world by surprise when it introduced the GT750. This was a two stroke motorcycle that could reach a speed of 110 miles per hour. It was able to accelerate from zero to sixty in only five seconds. Since this motorcycle was so well received, Suzuki decided to make a larger bike with the same type of power. The RG500 became the most successful racing bike of that era.

Suzuki continued to dominate the motocross racing circuit in the 1970’s, winning the World Motocross Championship in 1971, 1972, 1973, 1975, and 1976. Due to tighter emission regulations, Suzuki had some stumbling blocks in 1976. However, they were successfully able to redesign their four stroke models to meet these regulations. They models also sold very well.

Suzuki again make racing history with the introduction of the XN85 in 1982. This was a turbo charged motorcycle that won many high profile races. The first American to win the World Motocross Championship did so in 1982 on this bike. In 1986 they offered the GSX-R, also a turbo charged racer bike. What made it so original was the aluminum frame. This made it the lightest motorcycle in its class.

In addition to selling large quantities of racing bikes, Suzuki has done well in the cruiser market as well. The Boulevard model comes in many different sizes to meet the needs of the consumer. This is a very sporty looking model built to look great as well as to offer comfort. The five speed transmission allows the operator of the vehicle to remain comfortable regardless of the riding terrain.

The body of the Boulevard model allows for a smooth ride regardless of the speed at which you are traveling. This model is one of the top selling cruisers out there as well as the best price with the 2007 models priced around $13,000. Each one comes with a 12 month unlimited warranty that can be extended. Suzuki offers the best warranty of any motorcycle manufacturer with unlimited miles, no deductible, reimbursement costs if the motorcycle breaks down, rental vehicle reimbursement, and the remainder of the warranty is transferable should you decide to sell your motorcycle during the warranty time frame.

Today, Suzuki is in the top four motorcycle manufacturer’s world wide. They offer a wide variety of street, off road, and racing motorcycles to choose from. You can find Suzuki motorcycles at more than 1,600 dealerships around the world. They are well known for offering style, comfort, and speed with hundreds of different models to choose from. They are also among the top sellers because the models are very attractive, the price is very reasonable, and they stand behind their products by offering an excellent warranty.

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The books in the series have been designed for both independent and tutor assisted studies. For this reason they should prove particularly useful to the “self-starter” and to those wishing to update or upgrade their aircraft maintenance licence. Also, the series should prove a useful source of reference for those taking ab initiotraining programmes in JAR 147 (now ECAR Part-147) and FAR 147 approved organizations and those on related aeronautical engineering programmes in further and higher education establishments.

This book has primarily been written as one in a series of texts, designed to cover the essential knowledge base required by aircraft certifying mechanics, technicians and engineers engaged in engineering maintenance activities on commercial aircraft. In addition, this book should appeal to the members of the armed forces, and students attending training and educational establishments engaged in aircraft engineering maintenance and other related aircraft engineering learning programmes.

In this book we cover in detail the underpinning mathematics, physics, electrical and electronic fundamentals, and aerodynamics necessary to understand the function and operation of the complex technology used in modern aircraft. The book is arranged into four major sections:

1. • Introduction
2. • Scientific fundamentals
3. • Electrical and electronic fundamentals
4. • Fundamentals of aerodynamics

In the Introductory section you will find information on the nature of the aircraft maintenance industry, the types of job role that you can expect, the current methods used to train and educate you for such roles and information on the examinations system directly related to civil aviation maintenance engineering. In addition, you will find information on typical career progression routes, professional recognition, and the legislative framework and safety culture that is so much a part of our industry.

In the section on Scientific fundamentals we start by studying Module 1 of the JAR 66 (now ECAR Part-66) syllabus (see qualifications and levels) covering the elementary mathematics necessary to practice at the category B technician level. It is felt by the authors, that this level of “non-calculator” mathematics is insufficient as a prerequisite to support the study of the physics and the related technology modules, that are to follow. For this reason, and to assist students who wish to pursue other related qualifications, a section has been included on “further mathematics”. The coverage of JAR 66 Module 2 on physics is sufficiently comprehensive and at a depth, necessary for both category B1 and B2 technicians.

The section on Electrical and electronic fundamentals comprehensively covers ECAR 66 Module 3 and ECAR Part-66 Module 4 to a knowledge level suitable for category B2 avionic technicians. Module 5 on Digital Techniques and Electronic Instrument Systems will be covered in the fifth book in the series, Avionic Systems.

This book concludes with a section on the study of Aerodynamics, which has been written to cover ECAR Part-66 Module 8.

In view of the international nature of the civil aviation industry, all aircraft engineering maintenance staff need to be fully conversant with the SI system of units and be able to demonstrate proficiency in manipulating the “English units” of measurement adopted by international aircraft manufacturers, such as the Boeing Aircraft Company. Where considered important, the English units of measure will be emphasized alongside the universally recognized SI system. The chapter on physics (Chapter 4) provides a thorough introduction to SI units, where you will also find mention of the English system, with conversion tables between each system being provided at the beginning of Chapter 4.

To reinforce the subject matter for each major topic, there are numerous worked examples and test your knowledge written questions designed to enhance learning. In addition, at the end of each chapter you will find a selection of multiple-choice questions, that are graded to simulate the depth and breadth of knowledge required by individuals wishing to practice at the mechanic (category A) or technician (category B) level. These multiple choice question papers should be attempted after you have completed your study of the appropriate chapter. In this way, you will obtain a clearer idea of how well you have grasped the subject matter at the module level. Note also that category B knowledge is required by those wishing to practice at the category C or engineer level. Individuals hoping to pursue this route should make sure that they thoroughly understand the relevant information on routes, pathways and examination levels given later.

Further information on matters, such as aerospace operators, aircraft and aircraft component manufacturers, useful web sites, regulatory authorities, training and educational establishments and comprehensive lists of terms, definitions and references, appear as appendices at the end of the book. References are annotated using superscript numbers at the appropriate point in the text.

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