24 records matched your query       

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008 150904s2016    ilua     b    000 0 eng c
010    $a 2015034568
020    $a 022633242X (cloth : alk. paper)
020    $a 9780226332420 (cloth : alk. paper)
040    $a ICU/DLC $b eng $e rda $c ICU $d SKYRV $d SILO
042    $a pcc
050 00 $a Q172.5.C45 $b B357 2016
082 00 $a 500.201/185 $2 23
100 1  $a Ball, Philip, $d 1962- $e author.
245 10 $a Patterns in nature : $b why the natural world looks the way it does / $c Philip Ball.
264  1 $a Chicago : $b The University of Chicago Press, $c 2016.
300    $a 288 pages : $b color illustrations ; $c 26 cm.
504    $a Includes bibliographical references.
505 0  $t Spots and stripes: how the zebra paints its coat. $t Fractals: why mountains look like molehills -- $t Spirals: why there's maths in snails and sunflowers -- $t Flow: patterns in motion -- $t Waves and dunes: how to make a chemical clock -- $t Bubbles and foam: why bees know best and froth inspires architects -- $t Arrays and tilings: why crystals aren't five-sided--and how to make impossible ones that are -- $t Cracks: how things fall apart, and how a giant made his staircase -- $t Spots and stripes: how the zebra paints its coat.
520    $a Though at first glance the natural world may appear overwhelming in its diversity and complexity, there are regularities running through it, from the hexagons of a honeycomb to the spirals of a seashell and the branching veins of a leaf. Revealing the order at the foundation of the seemingly chaotic natural world, Patterns in Nature explores not only the math and science but also the beauty and artistry behind nature{u2019}s awe-inspiring designs. Unlike the patterns we create in technology, architecture, and art, natural patterns are formed spontaneously from the forces that act in the physical world. Very often the same types of pattern and form {u2013} spirals, stripes, branches, and fractals, say{u2014}recur in places that seem to have nothing in common, as when the markings of a zebra mimic the ripples in windblown sand. That{u2019}s because, as Patterns in Nature shows, at the most basic level these patterns can often be described using the same mathematical and physical principles: there is a surprising underlying unity in the kaleidoscope of the natural world. Richly illustrated with 250 color photographs and anchored by accessible and insightful chapters by esteemed science writer Philip Ball, Patterns in Nature reveals the organization at work in vast and ancient forests, powerful rivers, massing clouds, and coastlines carved out by the sea. By exploring similarities such as those between a snail shell and the swirling stars of a galaxy, or the branches of a tree and those of a river network, this spectacular visual tour conveys the wonder, beauty, and richness of natural pattern formation.
650  0 $a Pattern formation (Physical sciences)
650  0 $a Pattern formation (Biology)
650  0 $a Geometry in nature.
650  0 $a Nature.
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956    $a http://locator.silo.lib.ia.us/search.cgi?index_0=id&term_0=34A37180020611E68C89A9E2DAD10320