Bicycling Science, Third Edition

sdedeo writes "Perhaps the only competitor of rock climbing for the canonical geek sport, cycling -- for utility or amusement -- asks for a good blend of engineering and physiological savvy. For many the hands-on tinkering of bicycle maintenance and cycling technique provides welcome relief from more abstract manipulations in the library or office. Whether you think of cycling as the ultimate open source engineering project, or as a handy metaphor for your computer-of-choice, its appeal to the mechanism-oriented mind is undeniable." Read on for the rest of DeDeo's review. Bicycling Science, Third Edition author David Gordon Wilson pages 476 publisher MIT Press rating 10 reviewer Simon DeDeo ISBN 0262232375 summary A technical look at two-wheeled self-propulsion blending engineering and physiological savvy.

Released this April, David Gordon Wilson's updated Bicycling Science fills the gap between, on the one hand, shop manuals and training guides, and on the other the contemporary literature on human powered vehicles. Wilson, Professor Emeritus at MIT, navigates physics and physiology to produce a hefty source of insight.

Wilson splits his book into three broad sections -- the biology of human power generation, the physics of turning complicated muscle motions into linear velocity, and radical redesigns of the standard diamond bicycle frame.

The first section explains, among other things, the role of oxygen uptake and distribution, and gives empirical and theoretical backing to some, but not all, of the conventional wisdom surrounding cycling. The curious will find a detailed explanation of why high pedal cadence allows for long-term, low-intensity, high-efficiency power generation. Modifications to the standard choices -- from elliptical chain-wheels to hand-powered cranks -- are analyzed critically.

The second section might be jokingly termed "extreme high school physics." Wilson explains how people intuitively balance and steer on two wheels, and the design of braking systems to avoid flip-over. He gets down-and-dirty in the metallurgical literature to explain the role of metal fatigue in frame failure, and into fluid dynamics to discuss air drag in laminar and turbulent air flows.

Wilson manages to give a sense of how the different demands physics makes on all aspects of bike design cohere into the more-or-less efficient system that we recognize today as the road and mountain bike. Wilson is an innovator, but he has a healthy respect for current designs along with a good deal of skepticism for passing fads such as that for ultralight components.

The final section covers Wilson's love: the radical redesigns of human powered vehicles to enable people to not only cover vast distances or reach high speeds, but also to swim, submarine, fly and even hover or flap on the power -- between 100 and 700 W -- the "NASA standard" man or woman can provide on timescales between hours and seconds.

The text occasionally jumps into a wider historical and social context to provide lighter relief, such as the diagrams that compare cycling's efficiency to other modes of of transportation (cyclists handily undercut a fully loaded diesel commuter train for calories expended per rider.) Wilson is not amused by those who would compare cyclists to dolphins or hawks in terms of efficiency, distance, or speed -- too bad. A brief rant against cars near the end is the exception to the rule of Wilson's professional, honest style.

Bicycling Science can be used as a handbook for the armchair designer of human powered vehicles. Or, if you prefer, as a way to answer the nagging science questions that arise after a thoughtful bike ride. Perhaps its most inspiring use, however, is as a bed-table compendium of stand-alone investigations into what engineers have come up with on a device that has been perfected, again and again, for decades longer than the internal combustion engine.

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