%A A.K. Dewdney %T Computer recreations: artificial insanity: when a schizophrenic program meets a computerized analyst %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 10-13 %K SHRDLU, blocks world, Racter, Eliza %A Ashton B. Carter %T The command and control of nuclear war %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 20-27 %K military C^3I, arms control %A Alan P. Boss %T Collapse and formation of stars %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 28-33 %K astrophysics %A Peetr D. Eimas %T The perception of speech in early infancy %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 34-41 %A Richard J. Wurtman %T Alzheimer's disease %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 48-56 %A Walter Greiner %A Horst Stocker %T Hot nuclear matter %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 58-66 %K particle physics, Bevalac %A Robert J. McEliece %T The reliability of computer memories %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 68-73 %K error correcting codes, ECC, Hamming %A John M. Gosline %A M. Edwin DeMont %T Jet-propelled swimming in squids %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 74-79 %A Vernard Foley %A George Palmer %A Werner Soedel %T The crossbow %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 80-85 %A Jearl Walker %T The amateur scientist: searching for patterns of rainfall in a storm %J Scientific American %K sci_am %V 252 %N 1 %D January 1985 %P 88-93 %A A.K. Dewdney %T Computer recreations: an expert system outperforms mere mortals as it conquers the feared Dungeons of Doom %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 12-15 %K rogue, rogomatic rog-o-matic %A Robert L. Wesson %A Robert E. Wallace %T Predicting the next great earthquake in California %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 23-31 %K geology, San Andreas fault %A John E. Donelson %A Mervyn J. Turner %T How the trypanosome changes its coat %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 32-39 %M molecular biology %A Bradlay E. Schaefer %T Gamma-ray bursters %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 40-46 %K astrophysics, neutron stars %A Bernard H. Lavenda %T Brownian motion %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 56-67 %K physics thermodynamics %A T.H. Clutton-Brock %T Reproductive success in red deer %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 68-74 %K evolutionary biology, sexual selection %A Eli Brookner %T Phased-array radars %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 76-84 %K Pave Paws, Cobra Dane %A Gerald E. Loeb %T The functional replacement of the ear %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 86-92 %A Oleg D. Sherby %A Jeffrey Wadsworth %T Damascus steels %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 94-99 %K swords, metallurgy %A Jearl Walker %T The amateur scientist: Bidwell's ghost and other phenomena associated with the positive afterimage %J Scientific American %K sci_am %V 252 %N 2 %D February 1985 %P 100-104 %A A.K. Dewdney %T Computer recreations: a Core War bestiary of viruses, worms and other threats to computer memories %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 14-19 %A David Hafemeister %A Joseph J. Romm %A Kosta Tsipis %T The verification of compliance with arms-control agreements %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 28-35 %K satellite, remote sensing, arms control %A Ronald G. Prinn %T The volcanoes and clouds of Venus %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 36-43 %K planetary science %A Carlo M. Croce %A George Klein %T Chromosome translocations and human cancer %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 44-50 %A Daniel Z. Freedman %A Peter van\ Nieuwanhuizen %T The hidden dimensions of spacetime %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 62-69 %K Kaluza, general relativity, supergravity, superstrings %A Hal Whitehead %T Why whales leap %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 70-75 %A R.J. Mercer %T A neolithic fortress and funeral center %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 76-83 %K Hambledon Hill, archaeology %A S. Thomas Picraux %A Paul S. Peercy %T Ion implantation of surfaces %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 84-92 %A Eric Brock %T The chemistry of garlic and onions %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 94-99 %A Jearl Walker %T The amateur scientist: a field formula for calculating the speed and flight efficiency of a soaring bird %J Scientific American %K sci_am %V 252 %N 3 %D March 1985 %P 100-105 %K aerodynamics %A A.K. Dewdney %T Computer recreations: five easy pieces for a do loop and random number generator %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 12-16 %K Monte Carlo simulation %A Daniel R. Vining,\ Jr. %T The growth of core regions in the Third World %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 24-31 %K demography %A Gregory E. Vink %A W. Jason Morgan %A Peter R. Vogt %T The Earth's hot spots %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 32-39 %K geology, plate tectonics %A Yves Dunant %A Maurice Israel %T The release of acethylcholine %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 40-48 %K biopchemistry %A Chris Quigg %T Elementary particles and forces %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 64-75 %K quarks, gluons, gauge theory, unified theories, SSC %K quantum electrodynamics QED, quantum chromodynamics, QCD %A Alex L. Shigo %T Compartmentalization of decay in trees %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 76-83 %K botany %A Don Mathewson %T The clouds of Magellan %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 84-92 %K astronomy %A Peter M. Winter %A John N. Miller %T Anesthesiology %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 94-99 %A W. Garrett Scaife %T The Parsons steam turbine %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 100-106 %A Jearl Walker %T The amateur scientist: experiments with the external-combustion fluidyne engine, which has liquid pistons %J Scientific American %K sci_am %V 252 %N 4 %D April 1985 %P 108-112 %A A.K. Dewdney %T Computer recreations: building computers in one dimension sheds light on irreducibly complicated phenomena %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 10-16 %K cellular automata, Life, glider, glider gun %A Edward E. David,\ Jr. %T The federal support of mathematics %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 25-31 %A G. Nigel Godson %T Molecular approaches to malaria vaccines %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 32-39 %A Hans A. Bethe %A Gerald Brown %T How a supernova explodes %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 40-48 %K astrophysics, Type II, core collapse, shockwave %A Frank V. Kosikowski %T Cheese %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 66-73 %K Roquefort, cheddar, Parmesan, Camembert %A James N. Cameron %T Molting in the blue crab %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 766-83 %A Robert M. Hazen %A Larry W. Finger %T Crystals at high pressure %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 84-91 %K atomic structure, solid-state physics %A Hans Wallach %T Perceiving a stable environment %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 92-98 %K vision, motion %A Gottfried Frenzel %T The restoration of medieval stained glass %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 100-106 %A Jearl Walker %T The amateur scientist: cat's cradles and other topologies formed with a two-meter loop of flexible string %J Scientific American %K sci_am %V 252 %N 5 %D May 1985 %P 108-113 %A A.K. Dewdney %T Computer recreations: analog gadgets that solve a diversity of problems and raise an array of questions %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 12-17 %A Wassily Leontief %T The choice of technology %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 25-33 %K sociological forecasting, effects of automation %A Richard L. Edelson %A Joseph M. Fink %T The immunologic function of skin %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 34-41 %A J.M. LoSecco %A Frederick Reines %A Daniel Sinclair %T The search for proton decay %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 42-50 %K quantum chronodynamics, QCD %A Ivan R. King %T Globular clusters %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 66-73 %K galactic structure, Hertzsprung-Russell diagram, stellar evolution %K M13, M53, NGC 6624 %A A.G. Cairns-Smith %T The first organisms %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 74-82 %K evolution of life, clay, crystals %A Michael P. Ghiglieri %T The social ecology of chimpanzees %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 84-91 %A A. Trevor Hodge %T Siphons in roman aqueducts %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 94-99 %A Walter Tape %T The topology of mirages %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 100-106 %A Jearl Walker %T The amateur scientist: how the Sun's reflection from water offers a means of calculating the slopes of waves %J Scientific American %K sci_am %V 252 %N 6 %D June 1985 %P 108-112 %A A.K. Dewdney %T Computer recreations: a circuitous odyssey from Robotropolis to the electronic gates of Silicon Valley %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 8-13 %K Robot Odyssey, circuit design %A C. Arden Miller %T Infant mortality in the U.S. %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 21-27 %K demography %A Robert Hamilton Brown %A Dale P. Cruikshank %T The moons of Uranus, Neptune and Pluto %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 28-37 %K platetary science %A Charles H. Bennett %A Rolf Landauer %T The fundamental physical limits of computation %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 38-46 %K Fredkin gate, billiard-ball computer, enzymatic Turing machine, %K Brownian motion Turing machine, reversibility, energy %A G. Ledyard Stebbins %A Francisco J. Ayala %T The evolution of Darwinism %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 54-64 %K molecular clock, speciation, punctuated equilibrium, okapi %A Gary K. Beasuchamp %A Kunio Yamazaki %A Edward A. Boyse %T The chemosensory recognition of genetic individuality %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 66-72 %A Peter M. Warren %T Minoan palaces %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 74-81 %K Crete, Knossos, Phaistos, Zakros %A Arie Issar %T Fossil water under the Sinai-Negev peninsula %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 82-88 %K geology %A Douglass H. Morse %T Milkweeds and their visitors %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 90-96c %A Jearl Walker %T The amateur scientist: fly casting illuminates the physics of fishing %J Scientific American %K sci_am %V 253 %N 1 %D July 1985 %P 98-102 %A A.K. Dewdney %T Computer recreations: a computer microscope zooms in for a look at the most complex object in mathematics %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 8-14 %K fractals, Mandelbrot set %A William Epstein %T A critical time for nuclear nonproliferation %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 23-29 %K arms control %A Stephen W. Carmichael %A Hans Winkler %T The adrenal chromaffin cell %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 30-39 %K biochemistry %A Gerd Binnig %A Heinrich Rohrer %T The scanning tunneling microscope %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 40-46 %K quantum physics %A Timothy H. Boyer %T The classical vacuum %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 56-62 %K Magdeburg hemispheres, Casimir effect, zero-point radiation %A Eric Buffetaut %A Rucha Ingavat %T The Mesozoic vertebrates of Thailand %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 64-70 %K paleozoology %A Frederick D. Seward %A Paul Gorenstein %A Wallace H. Tucker %T Young supernova remnants %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 72-80 %K astronomy, astrophysics, neutron star, pulsar %A Uwe Radok %T The Antarctic ice %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 82-89 %K geography geology %A Joel G. Kingsolver %T Butterfly engineering %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 90-97 %K biology %A Jearl Walker %T The amateur scientist: cooking outdoors with simple equipment demonstrates aspects of thermal physics %J Scientific American %K sci_am %V 253 %N 2 %D August 1985 %P 98-102 %A A.K. Dewdney %T Computer recreations: at Bell Labs work is play and terminal diseases ate benign %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 12-16 %K Blit, DMD 5620, crabs %A Frank von\ Hippel %A David H. Albright %A Barbara G. Levi %T Stopping the production of fissile materials for weapons %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 26-33 %K arms control %A John W. Leibacher %A Robert W. Noyes %A Juri Toomre %A Roger K. Ulrich %T Helioseismology %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 34-43 %K astrophysics %A Peter Albersheim %A Alan G. Darvill %T Oligosaccharins %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 44-50 %K biochemistry %A James E. Rothman %T The compartmental organization of the Golgi apparatus %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 84-95 %K cellular biology %A John H. Simfelt %T Bimetallic catalysts %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 96-103 %K chemistry %A Robert R. Jackson %T A web-building jumping spider %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 106-113 %K biology %A Michael T. Motley %T Slips of the tongue %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 114-119 %K cognitive psychology %A Thomas D. Seeley %A Joan W. Nowicke %A Matthew Meselson %A Jeanne Guillemin %A Pongthep Akratanakul %T Yellow rain %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 122-131 %K ecology %A Jearl Walker %T The amateur scientist: what forces shape the behavior of water as a drop meanders down a windowpane ? %J Scientific American %K sci_am %V 253 %N 3 %D September 1985 %P 132-137 %A A.K. Dewdney %T Computer recreations: Bill's baffling burrs, Coffin's cornucopia, Engel's enigma %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 20-25 %K hexomino %A Robert A. Weinberg %T The molecules of life %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 34-43 %K biology biochemistry %A Gary Felsenfeld %T DNA %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 44-53 %K biology biochemistry %A James E. Darnell,\ Jr. %T RNA %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 54-64 %K biology biochemistry %A Russell F. Doolittle %T Proteins %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 74-83 %K biology biochemistry %A Mark S. Bretscher %T The molecules of the cell membrane %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 86-90 %K biology biochemistry %A Klaus Weber %A Mary Osborn %T The molecules of the cell matrix %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 92-102 %K biology biochemistry %A Susumu Tonegawa %T The molecules of the immune system %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 104-113 %K biology biochemistry %A Solomon H. Snyder %T The molecular basis of communication between cells %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 114-123 %K biology biochemistry %A Michael J. Berridge %T The molecular basis of communication within the cell %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 124-134 %K biology biochemistry %A Walter J. Gehring %T The molecular basis of development %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 136-146 %K biology biochemistry %A Allan C. Wilson %T The molecular basis of evolution %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 148-157 %K biology biochemistry genetics %A Jearl Walker %T The amateur scientist: strange things happen when two pendulums interact through a variety of interconnections %J Scientific American %K sci_am %V 253 %N 4 %D October 1985 %P 160-164 %A A.K. Dewdney %T Computer recreations: exploring the field of genetic algorithms in a primordial computer sea full of flibs %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 16-21 %K evolution %A John Cairns %T The treatment of diseases and the war against cancer %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 31-39 %A P. Kevin MacKeown %A Trevir C. Weekes %T Cosmic rays from Cygnus X-3 %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 40-49 %K astronomy, astrophysics, neutron star, pulsar %A Ernesto Carafoli %A John T. Penniston %T The calcium signal %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 50-58 %K biochemistry %A David G. Howell %T Terranes %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 90-103 %K geology, plate tectonics, collage tectonics %A Martin E. Feder %A Warren W. Burggren %T Skin breating in vertebrates %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 106-118 %K biology %A Mark Drela %A John S. Langford %T Human-powered flight %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 122-129 %K Gossamer Condor, Gossamer Albatross, Monarch B, Chrysalis %K aviation %A Robert McIvor %T Smart cards %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 130-137 %K EFT %A Jean S. Aigner %T Early Arctic settlements in North America %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 138-147 %K archaeology %A Jearl Walker %T The amateur scientist: how best to see Halley's comet while it is in view during the next few months %J Scientific American %K sci_am %V 253 %N 5 %D November 1985 %P 148-155 %K astronomy %A A.K. Dewdney %T Computer recreations: the search for an invisible ruler that will help radio astronomers to measure the earth %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 16-20 %K Golomb %A Herbert Lin %T The development of software for ballistic missile defense %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 32-39 %K SDI, arms control %A Vladimir V. Shkunov %A Boris Ya. Zel'dovich %T Optical phase conjugation %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 40-45 %K light physics %A Franz Huber %A John Thorson %T Cricket auditory communication %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 46-54 %K biology %A Jeffrey Laurence %T The immune system in AIDS %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 70-79 %K biology %A Peter H. Schultz %T Polar wandering on Mars %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 82-90 %K planetary science %A Daniel Gorenstein %T The enormous theorem %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 92-103 %K mathematics, classification of finite simple groups %A Vaclav Smil %T China's food %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 104-112 %K demography %A Lothar Haselberger %T The construction plans for the Temple of Apollo at Didyma %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 114-122 %K archaeology architecture %A Jearl Walker %T The amateur scientist: the kaleidoscope now comes equipped with flashing diode and focusing lenses %J Scientific American %K sci_am %V 253 %N 6 %D December 1985 %P 124-130 %A A.K. Dewdney %T Computer recreations: how close encounters with star clusters are achieved with a computer telescope %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 12-16 %K astronomy %A James A. Van\ Allen %T Space science, space technology and the space station %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 22-29 %K shuttle, NASA, planetary science %A Leo Sachs %T Growth, differentiation and the reversal of malignancy %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 30-37 %K biology %A John C. Brandt %A Malcolm B. Niedner,\ Jr. %T The structure of comet tails %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 38-46 %K planetary science %A David M. Pepper %T Applications of optical phase conjugation %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 56-65 %A Peter A. Rona %T Minreal deposits from sea-floor hot springs %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 66-74 %K geology %A Gerald A. Rosenthal %T The chemical defenses of higher plants %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 76-81 %K botany %A Robert E.M. Hedges %A John A.J. Gowlett %T Radiocarbon dating by accelerator mass spectrometry %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 82-89 %K archaeology %A Andrew R. Blaustein %A Richard K. O'Hara %T Kin recognition in tadpoles %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 90-96 %K biology %A Jearl Walker %T The amateur scientist: an inexpensive homemade polarimeter can analyze optically active compounds %J Scientific American %K sci_am %V 254 %N 1 %D January 1986 %P 98-103 %A A.K. Dewdney %T Computer recreations: the king (a chess program) is dead, long live the king (a chess machine) %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 12-15 %K North American Computer Chess Championship NACCC %K Hitech, Bebe, Cray Blitz %A Fred H. Tschirley %T Dioxin %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 21-27 %K chemistry %A Philippa Marrack %A John Kappler %T The T cell and its receptor %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 28-37 %K cellular biology %A Vitalii I. Goldanskii %T Quantum chemical reactions in the deep cold %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 38-44 %A John C. Mutter %T Seismic images of plate boundaries %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 54-61 %K geology %A Marc Cantin %A Jacques Genest %T The heart as an endocrine gland %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 62-67 %K biology %A Charles G. Shibley %A Jon E. Ahlquist %T Reconstructing bird philogeny by comparing DNA's %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 68-78 %K evolutionary biology, genetics %A Jean-Pierre Protzen %T Inca stonemasonry %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 80-89 %K archaeology architecture %A Michael Hoskin %T William Herschel and the making of modern astronomy %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 90-96 %K history %A Jearl Walker %T The amateur scientist: a homemade device for testing particle scattering; experiments in zero gravity %J Scientific American %K sci_am %V 254 %N 2 %D February 1986 %P 98-102 %A A.K. Dewdney %T Computer recreations: how a pair of dull-witte programs can look like geniuses on I.Q. tests %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 10-14 %A Richard K. Lester %T Rethinking nuclear power %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 23-31 %K inherently safe reactors %A Edward W. Hones,\ Jr. %T The Earth's magnetotail %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 32-39 %K planetary science %A Richard M. Lawn %A Gordon A. Vehar %T The molecular genetics of hemophilia %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 40-46 %A J. David Jackson %A Maury Tigner %A Stanley Wojcicko %T The superconducting supercollider %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 56-67 %K high-energy particle physics, accelerators %A Karl J. Niklas %T Computer-simulated plant evolution %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 68-75 %A Ronald A. Finke %T Mental imagery and the visual system %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 76-83 %K perception %A Glynis Jones %A Kenneth Wardle %A Paul Halstead %A Diana Wardle %T Crop storage at Asiros %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 84-91 %K archaeology, Bronze Age Greeze, Mycenae %A Chester R. Kyle %T Athletic clothing %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 92-98 %K bicycle racing, running %A Jearl Walker %T The amateur scientist: methods and optics of perceiving color in a black-and-white grating %J Scientific American %K sci_am %V 254 %N 3 %D March 1986 %P 100-104 %K visual perception %A A.K. Dewdney %T Computer recreations: a program for rotating hypercubes induces four-dimensional dementia %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 8-13 %K hypersphere, hypertorus %A Miroslav Nincic %T Can the U.S. trust the U.S.S.R. ? %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 21-29 %A Martin Karplus %A Andrew McCammon %T The dynamics of proteins %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 30-39 %K biochemistry %A Bertran I. Halperin %T The quantized Hall effect %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 40-48 %K quantum physics %A Owen Gingerich %T Islamic astronomy %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 68-75 %K history, astrolabe %A Eberhard Gwinner %T Internal rhythms in bird migration %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 76-84 %K biology %A Dana Z. Anderson %T Optical gyroscopes %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 86-91 %K ring-laser and fiber gyroscopes %A Hugo Lagercrantz %A Theodore A. Slotkin %T The "stress" of being born %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 92-102 %K biology obstetrics %A Don SMithers %A Klaus Wogram %A John Bowsher %T Playing the baroque trumpet %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 104-111 %K music %A Jearl Walker %T The amateur scientist: wonders with the retroreflector, a mirror that removes distortion from a ligh beam %J Scientific American %K sci_am %V 254 %N 4 %D April 1986 %P 112-117 %K optics %A A.K. Dewdney %T Computer recreations: branching phyolgenies of the Paleozoic and the fortunes of English family names %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %P 12-16 %K Neotree, Paleotree, genealogy, evolution, computer simulation %A Mickey S. Eisenberg %A Lwrence Bergner %A Alfred P. Hallstrom %A Richard O. Cummins %T Sudden cardiac death %P 25-31 %K biology %A Sen-itiroh Hakomori %T Glycosphingolipids %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %P 32-41 %K biochemistry %A Robert M. Haberle %T The climate of Mars %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %P 42-50 %K planetary science %A James H. Aubert %A Andrew M. Kraynik %A Peter B. Rand %T Aqueous foams %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %P 58-66 %K surface physics, beer %A Stephen J. O'Brien %A David W. Wildt %A Mitchell Bush %T The cheetah in genetic peril %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %P 68-76 %K evolution %A Thomas G. Phillips %A David B. Rutledge %T Superconducting tunnel detectors in radio astronomy %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %P 78-84 %A Marek Zvelebil %T Postglacial foraging in the forests of Europe %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %P 86-93 %K archaeology, anthropology, Stone Age %A Sandra Herbert %T Darwin as a geologist %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %P 94-101 %A Jearl Walker %T The amateur scientist: wire that "remembers" its shape is put to work running an engine %J Scientific American %K sci_am %V 254 %N 5 %D May 1986 %P 102-105 %K Nitinol %A Martin Gardner %T Mathematical games: casting a net on a checkerboard and other puzzles of the forest %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 14-17 %K minimal spanning tree, soap film, Steiner tree %A Eric D. Larson %A Marc H. Ross %A Robert H. Williams %T Beyond the era of materials %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 24-31 %K basic material consumption, economics %A Richard O. Hynes %T Fibronectins %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 32-41 %K biochemistry %A Howard E. Haber %A Gordon L. Kane %T Is nature supersymmetric ? %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 42-50 %K high-energy particle physics, theory %A Colin S. Ramage %T El Nino %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 55g-61 %K climate, planetary science %A Thomas F. Robinson %A Stephen M. Factor %A Edmund H. Sonnenblick %T The heart as a suction pump %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 62-69 %K biology %A Gerald Borgia %T Sexual selection in bowerbirds %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 70-79 %K evolutionary biology %A Vilayanur S. ramachandran %A Stuart M. Anstis %T The perception of apparent motion %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 80-87 %K vision %A Peter M. Moretti %A Louis V. Divone %T Modern windmills %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 88-96 %K Darrieus turbine, energy %A Jearl Walker %T The amateur scientist: mirrors make a maze so bewildering that the explorer must rely on a map %J Scientific American %K sci_am %V 254 %N 6 %D June 1986 %P 98-104 %K labyrinth %A A.K. Dewdney %T Computer recreations: a subline flight of fancy over a deserted data base %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 12-16 %K Flight Simulator %A C. Wiley Hinman %T Potential new crops %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 24-29 %K agriculture, buffalo gourd, crambe, jojoba, kenaf %A Jack O. Burns %T Very large structures in the Universe %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 30-39 %K Perseus-Pegasus supercluster of galaxies, astronomy, cosmology %K bubbles, filaments, voids %A Ronald C. Kennedy %A Joseph L. Melnick %A Gordon R. Dreesman %T Anti-idiotypes and immunity %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 40-48 %K biology %A Peter Molnar %T The structure of mountain ranges %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 64-73 %K geology, plate tectonics, lithosphere %A J.H. Hamilton %A J.A. Maruhn %T Exotic atomic nuclei %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 74-83 %K physics %A Frank A. Geldard %A Carl E. Sherrick %T Space, time and touch %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 84-89 %K saltation, perception, nervous system %A Ralph Norman Haber %T Flight simulation %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 90-97 %A Neil F. Hadley %T The arthropod cuticle %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 98-106 %K biology %A Jearl Walker %T The amateur scientist: exotic patterns appear in water when it is freezing or melting %J Scientific American %K sci_am %V 255 %N 1 %D July 1986 %P 108-113 %A A.K. Dewdney %T Computer recreations: digital presdigitating: the fine art of magic and illusion by computer %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 10-15 %A John Prados %A Joel S. Wit %A Michael J. Zagurek,\ Jr. %T The strategic nuclear forces of Britain and France %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 23-31 %K arms control %A David R. Nelson %T Quasicrystals %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 32-41 %K solid-state physics, tiling %A Alan Fine %T Transplantation in the central nervous system %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 42-50 %K biology %A R. Stephen Craxton %A Robert L. McCrory %A John M. Sources %T Progress in laser fusion %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 60-71 %K energy %A Paul C. Mangelsdorf %T The origin of corn %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 72-78 %K botany agriculture %A George E. Williams %T The solar cycle in precambrian time %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 80-89 %K paleoastronomy %A Charles C. Coutant %T Thermal niches of striped bass %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 90-96 %K zoology %A Norman Hammond %T The emergence of Maya civilization %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 98-107 %K archaeology %A Jearl Walker %T The amateur scientist: retracing the steps by which aluminum metal was initially purified back in 1886 %J Scientific American %K sci_am %V 255 %N 2 %D August 1986 %P 108-111 %A A.K. Dewdney %T Computer recreations: wallpaper for the mind: computer images that are almost, but not quite, repetitive %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 14-23 %K fractal %A Kenneth R. Foster %A Arthur W. Guy %T The microwave problem %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 28-35 %K human exposure to low levels, biology %A Dennis H. Rouvray %T Predicting chemistry from topology %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 36-43 %A Michael B. Green %T Superstrings %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 44-56 %K quantum physics, theory, supergravity, supersymmetry %A Gary W. Goldstein %A A. Lorris Betz %T The blood-brain barrier %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 70-79 %K biology %A Philippe Brou %A Thomas R. Sciascia %A Lynette Linden %A Jerome Y. Lettvin %T The colors of things %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 80-87 %K vision, perception %A Francesco Paresce %A Stuart Bowyer %T The Sun and the interstellar medium %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 88-94 %K astrophysics %A Joyce R. Richardson %T Brachiopods %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 96-102 %K biology %A Vernard Foley %A Werner Soedel %T Leonardo's contributions to theoretical mechanics %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 104-109 %K velocity addition, composition of forces, neutral plane, center of gravity %K crossbow %A Jearl Walker %T The amateur scientist: rainbow holograms, unlike conventional ones, can be observed in ordinary light %J Scientific American %K sci_am %V 255 %N 3 %D September 1986 %P 110-119 %K optics %A A.K. Dewdney %T Computer recreations: the compleat computer and a whimsical tour of face space %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 20-28 %A Joel P. Clark %A Merton C. Flemings %T Advanced materials and the economy %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 42-49 %A John S. Mayo %T Materials for information and communication %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 50-57 %K 5ESS %A Morris A. Steinberg %T Materials for aerospace %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 58-64 %K titanium, composites %A W. Dale Compton %A Norman A. Gjostein %T Materials for ground transportation %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 74-82 %K iron, steel, plastics %A Richard S. Claassen %A Louis A. Girifalco %T Materials for energy utilization %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 84-92 %A Robert A. Fuller %A Jonathan J. Rosen %T Materials for medicine %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 96-103 %A Gerald L. Liedl %T The science of materials %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 104-112 %K chemistry metallurgy %A Praveen Chaudhari %T Electronic and magnetic materials %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 114-120 %A J.M. Rowell %T Photonic materials %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 124-134 %K fiber optics, laser %A Bernard H. Kear %T Advanced metals %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 136-145 %K titanium, alloy, single-crystal %A H. Kent Bowen %T Advanced ceramics %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 146-154 %A Eric Baer %T Advanced polymers %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 156-165 %A Tsu-Wei Chou %A Roy L. McCullough %A R. Byron Pipes %T Composites %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 166-177 %A Jearl Walker %T The amateur scientist: cracks in a surface look intricately random but actually develop rather systematically %J Scientific American %K sci_am %V 255 %N 4 %D October 1986 %P 178-183 %A A.K. Dewdney %T Computer recreations: Star Trek emerges from the underground to a place in the home-computer arcade %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 12-16 %K games %A William C. Baer %T The shadow market in housing %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 27-33 %K demography %A Richard P. Laeser %A William I. McLaughlin %A Donna M. Wolff %T Engineering Voyager 2's encounter with Uranus %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 34-43 %K planetary science, spacecraft engineering %A William E. Carter %A Douglas S. Robertson %T Studying the Earth by very-long-baseline interferometry %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 44-52 %K astronomy geology %A Thomas R. Cech %T RNA as an enzyme %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 76-84 %K biochemistry %A Martinus J.G. Veltman %T The Higgs boson %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 88-94 %K particle physics %A Joseph T. Eastman %A Arthur L. DeVries %T Antarctic fishes %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 96-103 %K biology %A Anne Treisman %T Features and objects in visual processing %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 106-115 %K perception %A Lawrence S. Lerner %A Edward A. Gosselin %T Galielo and the specter of Bruno %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 116-123 %K history %A Jearl Walker %T The amateur scientist: the hyperscope and the pseudoscope aid experiments on three-dimensional vision %J Scientific American %K sci_am %V 255 %N 5 %D November 1986 %P 124-128 %K perception %A A.K. Dewdney %T Computer recreations: of fractal mountains, graftal plants and other computer graphics at Pixar %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 14-18 %K Genesis Star Trek %A Donald W. Light %T Corporate medicine for profit %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 30-37 %K demography %A James P. Crutchfield %A J. Doyne Farmer %A Norman H. Packard %A Robert S. Shaw %T Chaos %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 38-49 %K randomness, entropy, order, chaotic attractor %A Lawrence M. Krauss %T Dark matter in the Universe %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 50-60 %K astronomy, cosmology, particle physics %A Robert C. Gallo %T The first human retrovirus %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 78-88 %K HTLV AIDS %A Richard H. Masland %T The functional architecture of the retina %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 90-99 %K biology vision %A Michael L. Evans %A Randy Moore %A Karl-Heinz Hasenstein %T How roots respond to gravity %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 100-107 %K biology %A Alec N. Brooks %A Allan V. Abbott %A David Gordon Wilson %T Human-powered watercraft %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 108-114 %K Flying Fish II %A Donald J. Watts %A Carol Martin Watts %T A roman apartment complex %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 116-123 %K archaeology, architecture, Ostia, sacred cut %A Jearl Walker %T The amateur scientist: methods for going through a maze without becoming lost or confused %J Scientific American %K sci_am %V 255 %N 6 %D December 1986 %P 124-131