R

  • Douglas M. Considine
  • Glenn D. Considine

Keywords

Natural Rubber Rabies Virus Flavin Adenine Dinucleotide Radiation Thermometer Ramie Fiber 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

References

Additional Reading

  1. Baer, G. M.: “The Natural History of Rabies,” CRC Press, Boca Raton, Florida, 1991.Google Scholar
  2. Kuwert, C., et al., Editors: “Rabies in the Tropics,” Springer-Verlag, New York, 1985.Google Scholar
  3. Metze, K., and W. Feiden: “Rabies Virus Ribonucleoprotein in the Heart,” N. Eng. J. Med., 1814 (June 20, 1991 ).Google Scholar
  4. Smith, J. S., et al.: “Unexplained Rabies in Three Immigrants in the United States,” N. Eng. J. Med., 205 (January 24, 1991 ).Google Scholar
  5. Staff: “Morbidit and Mortality Weekly Report,” issued weekly by the Massachusetts Medical Society, Waltham, Massachusetts.Google Scholar
  6. Winkler, W. G., and K. Bögel: “Control of Rabies in Wildlife,” Sci. Amer., 86 (June 1992).Google Scholar
  7. Bierman, H, H.: “Microwave and mm-Wave Technology,” Microwave j., 44 (June 1991).Google Scholar
  8. Curlander, J., and R. McDonough: “Synthetic Aperture Radar,” Wiley, New York, 1991.Google Scholar
  9. Goldman, S. J. J.: “Phase Noise Analysis in Radar Systems,” Wiley, New York, 1989.Google Scholar
  10. Harper, J. D., and J. W. Downs: “A New Resin System for Radomes,” Microwave J., 94 (November 1992).Google Scholar
  11. Kaufman, W: “Radar Imaging: Forest X-Ray,” Amer. Forests, 46 (September—October 1990 ).Google Scholar
  12. Stiglitz, M. R., and C. Blanchard: “Over-the-Horizon Backscatter Radar,” Microwave J., 32 (May 1990).Google Scholar
  13. Thomas, L, L.: “Radar Investigations of the Middle Atmosphere,” Review (University of Wales), 47 (Spring 1989 ).Google Scholar
  14. Bartoslak, G.: “Line-Scanning IR Thermometers Team Up with Powerful Computers,” Instruments and Control Systems, 47 (June 1991).Google Scholar
  15. Carlson, D. R.: “Temperature Measurement in Process Control,” Instrument Technology, 26 (October 1990).Google Scholar
  16. Cleaveland, P.: “Temperature Monitoring and Control,” Instruments and Control Systems, 31 (June 1987).Google Scholar
  17. Considine, D. M., Editor: “Process/Industrial Instruments and Controls,” 4th Edition, McGraw-Hill, New York, 1993.Google Scholar
  18. Kerlin, T. W., and E. M. Katz: “Temperature Measurement in the 1990s,” Instrument Technology, 40 (August 1990).Google Scholar
  19. Sakuam, F., and S. Hattori: “Establishing a Practical Temperature Standard by Using Silicon Narrow-Band Radiation Thermometer,” 6th Intl. Temp. Symposium, Washington, D.C. (March 1982).Google Scholar
  20. Schoenstein, P. G.: “Infrared Sensor Tracks Temperature,” Instruments and Control Systems, 38 (April 1991).Google Scholar
  21. Siskovic, C.: “New Developments Expand Use of Fiber Optic IR Thermometers,” Instruments and Control Systems, 37 (June 1989).Google Scholar
  22. Warren, C.: “Spectral Response and IR Temperature Measurement,” Sensors, 16 (January 1992).Google Scholar
  23. Abelson, P. H.: `Isotopes in Earth Science,“ Science, 1357 (December 9, 1988 ).Google Scholar
  24. Allen, E. L.: “Radiation Biophysics,” Prentice Hall, Englewood Cliffs, New Jersey, 1990 ).Google Scholar
  25. Appenzeller, T.: “Roving Stones: A Landmass Was Wandering Over Three Billion Years Ago,” Sci. Amer., 19 (February 1990).Google Scholar
  26. Avignone, F. T., III, and R. 1. Brodzinski: “A Review of Recent Developments in Double-Beta Decay,” 21 ( A. Faessler, Editor) Pergamon Press, 1988.Google Scholar
  27. Badash, L.: “The Age-of-the-Earth Debate,” Sci. Amer., 90 (August 1989).Google Scholar
  28. Barnes, D. M.: “Probing the Authenticity of Antiquities with High-Tech Attacks on a Microscale,” Science, 1374 (March 18, 1988 ).Google Scholar
  29. Beardsley, T.: “Fallout: New Radiation Risk Estimates Prompt Calls for Tighter Controls,” Sci. Amer., 35 (March 1990).Google Scholar
  30. Bowen, D. Q. Q.: “The Last 130,000 Years,” Review (University of Wales), 39 (Spring 1989 ).Google Scholar
  31. Bower, B, B.: “Eggshells Help Date Ancient Human Sites,” Science News, 215 (April 7, 1990 ).Google Scholar
  32. Brooks, A. S., et al.: “Dating Pleistocene Archeological Sites by Protein Diagenesis in Ostrich Eggshell,” Science, 60 (April 6, 1990 ).Google Scholar
  33. Chesley, J. T., Halliday, A. N., and R. C. Scrivener: “Samarium-Neodymium D rect Dating of Fluorite Mineralization,” Science, 949 (May 17, 1991 ).Google Scholar
  34. Cobb, C. E., Jr.: “Living with Radiation,” National Geographic, 403 (April 1989).Google Scholar
  35. Elliott, S. R., Hahn, A. A., and K. M. Moe: “Direct Evidence for Two-NeutrinoGoogle Scholar
  36. Double-Beta-Decay in „Se,“ Physical Review Letters 59, 18, pp. 2020–2023 (November 2, 1987).Google Scholar
  37. Gaisser, T. K.: “Gamma Rays and Neutrinos as Clues to the Origin of High Energy Cosmic Rays,” Science, 1049 (March 2, 1990 ).Google Scholar
  38. Greiner, W., and A. Sandulescu: “New Radioactivities,” Sci. Amer., 58 (March 1990).Google Scholar
  39. Hamilton, D. P.: “U.S. Faces Uncertain Medical Isotope Supply,” Science, 603 (July 31, 1992 ).Google Scholar
  40. Horgan, J.: “The Shroud of Turin,” Sci. Amer., 18 (November 1988).Google Scholar
  41. Huntley. B., and I. C. Prentice: “July Temperatures in Europe from Pollen Data 6000 Years Before Present,” Science, 687 (August 5, 1988 ).Google Scholar
  42. Ludwig, K. R., et al.: “Mass-Spectrometric’-’0Th- 234U–258U Dating of the Devil’s Hole Calcite Vein,” Science, 284 (October 9, 1992 ).Google Scholar
  43. Margolis, S. V.: “Authenticating Ancient Marble Sculpture.” Sci. Amer., 104 (June 1989).Google Scholar
  44. Marshall, E, E.: “Racemization Dating: Great Expectations,” Science, 790 (February 16, 1990 ).Google Scholar
  45. Moe, M. K., and S. P. Rosen: “Double-Beta Decay,” Sci. Amer., 48 (November 1989).Google Scholar
  46. Monastersky, R, R.: “Coral Corrects Carbon Dating Problems,” Science News, 356 (June 9, 1990 ).Google Scholar
  47. Pszczola, D. W.: “Food Irradiation,” Food Technology, 92 (June 1990).Google Scholar
  48. Rusting, R.: “A Clock in the Trees: Tree Rings Reveal the Precise Age of the Oldest Road,” Sci. Amer., 30 (April 1990).Google Scholar
  49. Staff: “Rocks of Ages,” Technology Review (MIT), 80 (April 1990).Google Scholar
  50. Strauss, S.: “Archeology’s Dating Game,” Technology Review (MIT). 8 (October 1987).Google Scholar
  51. Swisher, C. C., III, and D. R. Prothero: “Single-Crystal 41 Ar/’0Ar Dating of the Eocene-Oligocene Transition in North America,” Science, 760 (August 17, 1990 ).Google Scholar
  52. Christiansen, W. N., and J. A. Hogden: “Radiotelescopes,” 2nd Ed., Cambridge University Press, New York, 1985.Google Scholar
  53. Cornwell, T. J.: “The Applications of Closure Phase to Astronomical Imaging,” Science, 263 (July 21, 1989 ).Google Scholar
  54. Grossman, A. W., Muhleman, D. O., and G. L. Berge: “High-Resolution Microwave Images of Saturn,” Science, 1211 (September 15, 1989 ).Google Scholar
  55. Kellermann, K., and B. Sheets: “Serendipitous Discoveries in Radio Astronomy,” National Radio Astronomy Observatory, Charlottesville, Virginia, 1983.Google Scholar
  56. Kellermann, K. I, and A. E. Thompson: “The Very-Long-Baseline Array,” Sci. Amer., 54 (January 1988).Google Scholar
  57. Kraus, J. D.: “Radio Astronomy,” 2nd Ed., Cygnus-Quasar Books, Powell, Ohio, 1986.Google Scholar
  58. Pacholczyk, A.: “Radio Astrophysics,” W. H. Freeman, New York, 1970.Google Scholar
  59. Rohlfs, K, K.: “Tools of Radio Astronomy,” Springer-Verlag, New York, 1986.Google Scholar
  60. Rothman, T.: “In Memoriam: The 300-foot Radio Telescope Has Collapsed,” Sci. Amer., 17 (February 1989).Google Scholar
  61. Stone, R, R.: “Radioastronomers Seek a Clear Line to the Stars,” Science, 1316 (March 15, 1991 ).Google Scholar
  62. Sullivan, W. T. III, Editor: “The Early Years of Radio Astronomy,” Cambridge University Press, New York, 1984.Google Scholar
  63. Thompson, A. R., Moran, J. M., and G. W. Swenson, Jr.: “Interferometry and Aperture Synthesis in Radio Astronomy,” Wiley, New York, 1986.Google Scholar
  64. Waldrop, M. M.: “Radio Astronomy’s Crumbling Showpiece,” Science, 268 (July 19, 1991 ).Google Scholar
  65. Verschuur, G., and K. Kellermann, Editors.: “Galactic and Extragalactic Radio Astronomy,” Springer-Verlag, New York, 1974.Google Scholar
  66. Landa, E. R.: “The First Nuclear Industry,” Sci. Amer., 180 (November 1982).Google Scholar
  67. Sax, N. R., and R. J. Lewis, Sr.: “Dangerous Properties of Industrial Materials,” 8th Edition, Van Nostrand Reinhold, New York, 1992.Google Scholar
  68. Staff: “Handbook of Chemistry and Physics,” 73rd Edition, CRC Press, Boca Raton, Florida, 1992–1993.Google Scholar
  69. Williams, P. L., and J. L. Burson, Editors: “Industrial Toxicology,” Van Nostrand Reinhold, New York, 1989.Google Scholar
  70. Abelson, P. H.: “Uncertainties About Health Effects of Radon,” Science, 353 (October 19, 1990 ).Google Scholar
  71. Abelson, P. H.: “Mineral Dusts and Radon in Uranium Mines,” Science, 777 (November 8, 1991 ).Google Scholar
  72. Bodansky, D., Robkin, M. A., and D. R. Stadler: “Indoor Radiation and Its Hazards,” Univ. Washington Press, Seattle, Washington, 1988.Google Scholar
  73. Hamilton, D. P.: “Indoor Radon: A Little Less to Worry About,” Science, 1019 (March 1, 1991 ).Google Scholar
  74. Nero, A. V, Jr.: “Controlling Indoor Air Pollution,” Sci. Amer., 42 (May 1988).Google Scholar
  75. Anderson, D. L.: “Composition of the Earth,” Science, 367 (January 20, 1989 ).Google Scholar
  76. Carter, G. F., and D. E. Paul: “Materials Science and Engineering,” ASM International, Materials Park, Ohio, 1991.Google Scholar
  77. Lambert, D. D., et al.: “Rhenium-Osmium and Samarium-Neodymium Isotopic Systematics of the Stillwater Complex,” Science, 1169 (June 9, 1989 ).Google Scholar
  78. Lewis, R. J., Sr, Sr.: “Hawley’s Condensed Chemical Dictionary,” Van Nostrand Reinhold, New York, 1992.Google Scholar
  79. Mannhart, J. et al.: “Spatially Resolved Observations of Supercurrents Across Grain Boundaries in YBaCuO Films,” Science, 839 (August 25, 1989 ).Google Scholar
  80. Mayers, R.A, R.A.: “Handbook of Chemicals Production Processes,” McGraw-Hill, New York, 1986.Google Scholar
  81. Muecke, G. R., and P. Moller: “The Not-So-Rare Earths,” Sci. Amer., 72 (January 1988).Google Scholar
  82. Olmez, I., and G. E. Gordon: “Rare Earth Atmospheric Signature for Oil-Fired Power Plants and Refineries,” Science, 229, 966 (1985).CrossRefGoogle Scholar
  83. Ondov, J.M., and W. R. Kelly: “Tracing Aerosol Pollutants with Rare Earth Isotopes,” Analytical Chemistry, 691A (July 1, 1991 ).Google Scholar
  84. Sax, N. R., and R. J. Lewis, Sr.: “Dangerous Properties of Industrial Materials,” 8th Edition, Van Nostrand Reinhold, New York, 1992.Google Scholar
  85. Staff: “ASM Handbook—Properties and Selection: Nonferrous Alloys and Pure Metals,” ASM International, Materials Park, Ohio, 1990.Google Scholar
  86. Staff: “Handbook of Chemistry and Physics,” 73rd Edition, CRC Press, Boca Raton, Florida, 1992–1993.Google Scholar
  87. White, R. M.: “Opportunities in Magnetic Materials,” Science, 229, 11 (1985).CrossRefGoogle Scholar
  88. Adar, R. K.: “A Flaw in a Universal Mirror,” Sci. Amer., 50 (February 1988).Google Scholar
  89. Allan, D. W., and M. A. Weiss: Paper presented at 34th Annual Frequency Control Symposium, Fort Monmouth, New Jersey, 1980.Google Scholar
  90. Allan, D. W, et al.: Paper presented at Conf. on Precision Electromagnetic Measurements, Delft, Netherlands, August 18, 1984.Google Scholar
  91. Allan, D. W, Weiss, M. A., and N. Ashby: “Around-the-World Relativistic Sagnac Experiment,” Science, 228, 69–70 (1985).CrossRefGoogle Scholar
  92. Ashby, N., and D. W. Allan: Paper presented at International Union of Radio Science Symposium on Time and Frequency, Helsinki, Finland, 1978.Google Scholar
  93. Bertotti, B., de Felice, F., and A. Pascolini, Eds.: “General Relativity and Gravitation,” Reidel, Boston, 1984.Google Scholar
  94. Brush, S. G.: “Prediction and Theory Evaluation: The Case of Light Bending,” Science, 1124 (December 1, 1989 ).Google Scholar
  95. Carmeli, M, M.: “Group Theory and General Relativity,” McGraw-Hill, New York, 1977.Google Scholar
  96. Chagas, C.: “Einstein,” Einstein Session of the Pontifical Academy, Vatican City (November 10, 1979). Reprinted in Science, 207, 1159–1161 (1980).CrossRefGoogle Scholar
  97. Cline, D. B., and F. E. Mills, Editors: “Unification of Elementary Forces and Gauge Theories,” Hardwood Academic, London, 1978.Google Scholar
  98. Cohen, I. B.: “Newton’s Discovery of Gravity,” Sci. Amer., 166–179 (March 1981).Google Scholar
  99. Davies, P., Editor: “The New Physics,” Cambridge University Press, New York, 1989.Google Scholar
  100. Dirac, P. A. M.: “Einstein,” Einstein Session of the Pontifical Academy, Vatican City (November 10, 1979). Reprinted in Science, 207, 1161–1162 (1980).CrossRefGoogle Scholar
  101. Einstein, A.: “On the Generalized Theory of Gravitation,” Sci. Amer., 1 (April 1950).Google Scholar
  102. Ellis, P. J., and Y. C. Tang., Editor: “Trends in Theoretical Physics,” Addison-Wesley, Redwood City, California, 1990.Google Scholar
  103. Freedman, D. Z., and P. van Nieuwenhuizen: “The Hidden Dimensions of Spacetime,” Sci. Amer., 252 (3), 74–81 (1985).CrossRefGoogle Scholar
  104. French, A. P.: “Einstein: A Centenary Volume,” Harvard Univ. Press, Cambridge, Massachusetts, 1979.Google Scholar
  105. Geroch, R.: “Mathematical Physics,” Univ. of Chicago Press, Chicago, Illinois, 1985.Google Scholar
  106. Gibbons, A.: “Putting Einstein to the Test—In Space,” Science 939 (November 15, 1991).Google Scholar
  107. Glick, T. E, Editor: “The Comparative Reception of Relativity,” Reidel, Dordrecht, 1987.Google Scholar
  108. Goldberg, S, S.: “Understanding Relativity,” Birkhäuser, Boston, Massachusetts, 1984.Google Scholar
  109. Hafele, J. C., and R. E. Keating: Science, 177, 168 (1972).CrossRefGoogle Scholar
  110. Hamilton, D. P. L.: “Laser Interferometry Gravitational Observatory,” Science, 635 (Mary 3, 1991 ).Google Scholar
  111. Hawking, S. W., and W. Israel, Editors: “General Relativity,” Cambridge Univ. Press, New York, 1979.Google Scholar
  112. Hawking, S. W, and W. Israel, Editors: “Three Hundred Years of Gravitation,” Cambridge University Press, New York, 1987.Google Scholar
  113. Hegstrom, R. A., and D. K. Kondepudi: “The Handedness of the Universe,” Sci. Amer., 108 (January 1990).Google Scholar
  114. Held, A., Editor: “General Relativity and Gravitation,” Plenum, New York, 1980.Google Scholar
  115. Pais, A, A.: “Subtle is the Lord: The Science and the Life of Albert Einstein,” Oxford University Press, New York, 1982.Google Scholar
  116. Pool, R, R.: “Closing in On Einstein’s Special Relativity Theory,” Science, 1207 (November 30, 1990 ).Google Scholar
  117. Pope John Paul II: “Einstein,” Einstein Session of the Pontifical Academy, Vatican City (November 10, 1979). Reprinted in Science, 207, 1165–1167 (1980).CrossRefGoogle Scholar
  118. Pyenson, L.: “The Young Einstein: The Advent of Relativity,” Hilger, Bristol, U.K., 1985.Google Scholar
  119. Resnick, R, R.: “Basic Concepts in Relativity and Early Quantum Mechanics,” Wiley, New York, 1972.Google Scholar
  120. Tipler, F. J., Editor: “Essays in General Relativity,” Academic Press, New York, 1980.Google Scholar
  121. Weisskopf, V. F.: “Einstein,” Einstein Session of the Pontifical Academy, Vatican City (November 10, 1979). Reprinted in Science, 207, 1163–1164 (1980).CrossRefGoogle Scholar
  122. Will, C. M. M.: “Theory and Experiment in Gravitational Physics,” Cambridge University Press, New York, 1981.Google Scholar
  123. Will, C. M.: “General Relativity at 75: How Right Was Einstein?” Science, 770 (November 9, 1990 ).Google Scholar
  124. Bryskin, B. D.: “Rhenium and Its Alloys,” Advanced Materials and Processes, 22 (September 1992).Google Scholar
  125. Horan, M. F., et al.: “Rhenium-Osmium Isotope Constraints on the Age of Iron Meteorites,” Science, 1118 (February 28, 1992 ).Google Scholar
  126. Knipple, W. R.: “Rhenium,” in “Metals Handbook,” 9th Edition, Vol. 2, American Society for Metals, Metals Park, Ohio, 1979.Google Scholar
  127. Meyer, C.: “Ore Metals Through Geologic History,” Science, 227, 1421–1428 (1985).CrossRefGoogle Scholar
  128. Savittskii, E. M., and M. A. Tylkina (editors): “The Study and Use of Rhenium Alloys” (translated from the Russian), Amerind Publishing Co., Pvt. Ltd. Available through U.S. Bureau of the Interior, or National Science Foundation, Washington, D.C. (1978).Google Scholar
  129. Sax, N. R., and R. J. Lewis, Sr.: “Dangerous Properties of Industrial Materials,” 7th Edition, Van Nostrand Reinhold, New York, 1989.Google Scholar
  130. Sinfelt, J. H.: “Bimetallic Catalysts,” Sci. Amer., 90–98 (September 1985).Google Scholar
  131. Staff: “ASM Handbook—Properties and Selection: Nonferrous Alloys and Pure Metals,” ASM International, Materials Park, Ohio, 1990.Google Scholar
  132. Staff: “Handbook of Chemistry and Physicis,” 73rd Edition, CRC Press, Boca Raton, Florida, 1992–1993.Google Scholar
  133. Staff: “Forecast for Metals,” Advanced Materials and Processes (Published annually in January issue.)Google Scholar
  134. Walker, R. J., and J. W. Morgan: “Rhenium-Osmium Isotope Systematics of Carbonaceous Chondrites,” Science, 519 (January 27, 1989 ).Google Scholar
  135. Bozza, L, L.: “Rhodium,” Metals Handbook, 9th Edition, Vol. 1, American Society for Metals, Metals Park, Ohio, 1979.Google Scholar
  136. Carter, G. F., and D. E. Paul: “Materials Science and Engineering,” ASM International, Materials Park, Ohio, 1991.Google Scholar
  137. Green, R. B., and A. R. Wroblewski: “Platinum-Rhodium Alloys,” Metals Handbook, 9th Edition, Vol. 2, American Society for Metals, Metals Park, Ohio, 1979.Google Scholar
  138. Halpern, J.: “Mechanism and Stereoselectivity of Asymmetric Hydrogenation,” Science, 217, 401–407 (1982).CrossRefGoogle Scholar
  139. Meyers, R. A. A.: “Handbook of Chemicals Production Processes,” McGraw-Hill, New York, 1986.Google Scholar
  140. Mitilineos, J. D.: “Platinum-Rhodium-Rubidium Alloys,” Metals Handbook 9thGoogle Scholar
  141. Edition, Vol. 2, American Society for Metals, Metals Park, Ohio, 1979.Google Scholar
  142. Mitilineos, J. D. D.: “Rhodium-Rubidium Alloys,” Metals Handbook, 9th Edition, Vol. 2, American Society for Metals, Metals Park, Ohio, 1979.Google Scholar
  143. Sax, N. R., and R. J. Lewis, Sr.: “Dangerous Properties of Industrial Materials,” 7th Edition, Van Nostrand Reinhold, New York, 1989.Google Scholar
  144. Sinfelt, J. H.: “Bimetallic Catalysts,” Sci. Amer., 90 (September 1985).Google Scholar
  145. Staff: “ASM Handbook—Properties and Selection: Nonferrous Alloys and Pure Metals,” ASM International, Materials Park, Ohio, 1990.Google Scholar
  146. Staff: “Handbook of Chemistry and Physics,” 73rd Edition, CRC Press, Boca Raton, Florida, 1992–1993.Google Scholar
  147. Crawford, R, R.: “Gene Mapping Japan’s Number One Crop (Rice),” Science, 1611 (June21, 1991 ).Google Scholar
  148. Dover, M. J., and L. M. Talbot, Editors: “Feeding the Earth—An Agroecological Solution,” Technology Rev. (MIT), 26 (February 1988).Google Scholar
  149. Dziezak, J. D.: “Romancing the Kernel: A Salute to Rice Varieties,” Food Technology, 74 (June 1991).Google Scholar
  150. Gasser, C. S., and R. T. Fraley: “Genetically Engineering Plants for Crop lmprovement,” Science, 1293 (June 16, 1989 ).Google Scholar
  151. Hamer, J. E.: “Molecular Probes for Rice Blast Disease,” Science, 632 (May 3, 1991 ).Google Scholar
  152. Leath, M., Livezey, J., and K. McManus: “Government Programs for Rice: What They Mean to Producers, Processors, and Consumers,” Nat’l. Food Review, 5 (July–September 1988 ).Google Scholar
  153. Lorenz, K. J., and K. Kulp, Editors: “Handbook of Cereal Science and Technology,” Marcel Dekker, New York, 1990.Google Scholar
  154. Pszczpola, D. E.: “U.S. Researcher Wins 1988 General Foods World Food Prize (Rice),” Food Technology, 50 (August 1988).Google Scholar
  155. Staff: “Bumper Transgenic Plant Crop,” Science, 33 (July 5, 1991 ).Google Scholar
  156. Walsh, J, J.: “Second Chance for Rice Research Center (West Africa Rice Development Association),” Science, 969 (February 26, 1988 ).Google Scholar
  157. Hattwick, M. A. W., O’Brien, R. J., and B. F. Hanson: “Rocky Mountain Spotted Fever: Epidemiology of an Increasing Problem,” Ann. Intern. Med., 84, 732 (1976).CrossRefGoogle Scholar
  158. Maugh, T. H., II: “Rickettsiae: A New Vaccine for Rocky Mountain Spotted Fever,” Science, 201, 604 (1978).CrossRefGoogle Scholar
  159. Oster, C. N., et al.: “Laboratory-acquired Rocky Mountain Spotted Fever: ”The Hazard of Aerosol Transmission,“ N. Engl. J. Med., 297, 859 (1977).CrossRefGoogle Scholar
  160. Turck, W. P. G., et al.: “Chronic Q Fever,” Q. J. Med., 45, 193 (1976).Google Scholar
  161. Woodward, T. E., et al.: “Prompt Confirmation of Rocky Mountain Spotted Fever,” J. Infect. Dis., 134, 297 (1976).CrossRefGoogle Scholar
  162. Argote, L., and D. Epple: “Learning Curves in Manufacturing,” Science, 920 (February 23, 1990 ).Google Scholar
  163. Brooks, R. A.: “New Approaches to Robotics,” Science, 1227 (September 13, 1991 ).Google Scholar
  164. Cohen, S. S., and J. Zysman: “Manufacturing Innovation and American Industrial Competitiveness,” Science, 1110 (March 4, 1988 ).Google Scholar
  165. Considine, D. M., Editor: “Robots” in Process/Industrial Instruments and Controls Handbook, 4th Edition, McGraw-Hill, New York, 1993.Google Scholar
  166. Dewdney, A. K.: “Insectoids Invade a Field of Robots,” Sci. Amer., 118 (July 1991).Google Scholar
  167. Frosh, R. A., and N. E. Gallopoulos: “Strategies for Manufacturing,” Sci. Amer., 144 (September 1989).Google Scholar
  168. Holden, C, C.: “Juggling Robot,” Science, 742 (February 15, 1991 ).Google Scholar
  169. Mansfield, E, E.: “Industrial Innovation in Japan and the United States,” Science, 1769 (September 30, 1988 ).Google Scholar
  170. Michie, D, D.: “Application of Machine Learning to Recognition and Control,” Univ. of Wales Review, 23 (Spring 1989 ).Google Scholar
  171. Sheridan, T. B.: “Merging Mind and Machine,” Technology Review (MIT), 32 (October 1989).Google Scholar
  172. Smit, M. C., and M. W. Tilden: “Beam Robotics,” Algorithm, 15 (March 1991).Google Scholar
  173. Towhill, D. R. R.: “The Dynamic Analysis Approach to Manufacturing System Design,” Univ. of Wales Review, 3 (Spring 1988 ).Google Scholar
  174. Tyre, M. J.: “Managing Innovation on the Shop Floor,” Technology Review (MIT), 58 (October 1991).Google Scholar
  175. Uttal, W. R.: “Teleoperators,” Sci. Amer., 124 (December 1989).Google Scholar
  176. Yoerger, D. R. R.: “Robotic Undersea Technology,” Oceanus, 32 (Spring 1991 ).Google Scholar
  177. Cohen, W.: “New Horizons in Chemical Propulsion,” Astronautics and Aeronautics, 2, 12, 46–51 (1973).Google Scholar
  178. Quinn, L. P., et al.: “High Energy Storage Investigations,” Rept. AFRPL TR-71–36, U.S. Air Force Rocket Propulsion Laboratory, Edwards, California, 1971.Google Scholar
  179. Ross, D. M.: “Propellants,” in “Energy Technology Handbook,” (D. M. Considine, editor), McGraw-Hill, New York, 1977.Google Scholar
  180. Christensen, J. N., Rosenfeld, J. L., and D. J. DePaolo: “Rates of Tectonometamorphic Processes from Rubidium and Strontium Isotopes in Garnet,” Science, 1465 (June 23, 1989 ).Google Scholar
  181. Sax, N. R., and R. J. Lewis, Sr.: “Dangerous Properties of Industrial Materials,” 8th Edition, Van Nostrand Reinhold, New York, 1992.Google Scholar
  182. Staff: “ASM Handbook—Properties and Selection: Nonferrous Alloys and Special-Purpose Materials,” American International, Materials, Park, Ohio, 1990.Google Scholar
  183. Staff, “Handbook of Chemistry and Physics,” 73rd Edition, CRC Press, Boca Raton, Florida, 1992–1993.Google Scholar
  184. Zhu, O., et al.: “X-Ray Diffraction Evidence for Nonstoichometric Rubidium-C60 Intercalation Compounds,” Science, 545 (October 25, 1991 ).Google Scholar
  185. Carter, F. E. E.: “Platinum-Ruthenium Alloys,” Metals Handbook, 9th Edition, Vol. 2, American Society for Metals, Metals Park, Ohio, 1979.Google Scholar
  186. Coles, D. G., and L. D. Ramspott: “Migration of Ruthenium-106 in a Nevada Test Site Aquifer,” Science, 215, 1235–1237 (1982).CrossRefGoogle Scholar
  187. Sax, N. R., and R. J. Lewis, Sr.: “Dangerous Properties of Industrial Materials,” 8th Edition, Van Nostrand Reinhold, New York, 1992.Google Scholar
  188. Sinfelt, J. H.: “Bimetallic Catalysts,” Sci. Amer., 90–98 (September 1985).Google Scholar
  189. Staff: “ASM Handbook—Properties and Selection: Nonferrous Alloys and Special-Purpose Materials,” American International, Materials Park, Ohio, 1990.Google Scholar
  190. Staff, “Handbook of Chemistry and Physics,” 73rd Edition, CRC Press, Boca Raton, Florida, 1992–1993.Google Scholar

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© Springer Science+Business Media New York 1995

Authors and Affiliations

  • Douglas M. Considine
  • Glenn D. Considine

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