Cats' Paws and Catapults: Mechanical Worlds of Nature and PeopleW. W. Norton & Company, 1998 - 382 páginas Nature and humans build their devices with the same earthly materials and use them in the same air and water, pulled by the same gravity. Why, then, do their designs diverge so sharply? Humans, for instance, love right angles, while nature's angles are rarely right and usually rounded. Our technology goes around on wheels—and on rotating pulleys, gears, shafts, and cams—yet in nature only the tiny propellers of bacteria spin as true wheels. Our hinges turn because hard parts slide around each other, whereas nature's hinges (a rabbit's ear, for example) more often swing by bending flexible materials. In this marvelously surprising, witty book, Steven Vogel compares these two mechanical worlds, introduces the reader to his field of biomechanics, and explains how the nexus of physical law, size, and convenience of construction determine the designs of both people and nature. "This elegant comparison of human and biological technology will forever change the way you look at each."—Michael LaBarbera, American Scientist |
Conteúdo
Noncoincident Worlds | 15 |
Two Schools of Design | 20 |
The Matter of Magnitude | 39 |
Surfaces Angles and Corners | 57 |
The Stiff and the Soft | 82 |
Two Routes to Rigidity | 106 |
Pulling versus Pushing | 128 |
Engines for the Mechanical Worlds | 153 |
About Pumps Jets and Ships | 205 |
Making Widgets | 229 |
Copying in Retrospect | 249 |
Copying Present and Prospective | 276 |
Contrast Convergences and Consequences | 289 |
Notes | 313 |
References | 343 |
363 | |
Outras edições - Ver todos
Cats' Paws and Catapults: Mechanical Worlds of Nature and People Steven Vogel Visualização parcial - 2000 |
Cats' Paws and Catapults: Mechanical Worlds of Nature and People Steven Vogel Prévia não disponível - 1998 |
Termos e frases comuns
aircraft airfoils airplane animals arthropods beam bend better biological biologist birds boat bones build cells Chapter common compression cones crack curved cylinder D'Arcy Thompson devices distance drag efficiency elastic electric motors energy engines evolutionary faster feedback fibers Figure flagella flat flexible flow fluid dynamic flying force gravity heat heat engines human technology increase insects instance internal-combustion engines invented legs length lengthwise less lift load logarithmic spirals look machines material matter mechanical metals mollusk move muscle muscular hydrostats natural selection nature's organisms percent piston plants pressure problem produce propeller protein pull pumps push rectangular relative resilience resilin resist scheme shape shells ships speed spider silk squid steam stiff storage stress stretch structures struts surface tension swimming tendons tensegrity tensile things tion tree twist Vogel waterwheel waves weight what's wheels wind wings wood
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