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Destination Mars

Page 27

by Rod Pyle


  Zubrin, Robert. The Case for Mars. New York: Touchstone, 1996.

  ——. Mars on Earth. New York: Tarcher, 2003.

  SELECTED REFERENCES

  “Antarctic Expedition Prepared Researchers for Mars Project.” ScienceDaily. February 5, 2009. Accessed 2011. http://www.sciencedaily.com/releases/2009/02/090205141509.htm.

  Burton, Kathleen. “Mars-Like Atacama Desert Could Explain Viking ‘No Life' Results.” Release 03-87AR. NASA, Ames Research Center. November 7, 2003. http://www.nasa.gov/centers/ames/news/releases/2003/03_87AR.html.

  Cornell University. “Athena: Mars Exploration Rovers.” Accessed 2011. http://athena.cornell.edu/.

  ESA. “Mars Express.” Accessed 2011. http://www.esa.int/SPECIALS/Mars_Express/index.html.

  Klein, Harold, Norman Horowitz, Gilbert Levin, et al. “The Viking Biological Investigation: Preliminary Results.” Science 194, no. 4260 (October 1976): 99-105. Accessed 2011. http://www.sciencemag.org/content/194/4260/99.abstract.doi:10.1126/science.194.4260.99.

  Mars Daily. “Digging Deep: An Interview with Chris McKay.” August 15, 2006. Accessed 2011. http://www.marsdaily.com/reports/Digging_Deep_An_Interview_With_Chris_Mckay_999.html.

  Mars Institute. “Haughton-Mars Project: August 2010.” Accessed 2011. http://www.marsonearth.org/.

  National Aeronautics and Space Administration (NASA). “A Chronology of Mars Exploration.” Accessed 2011. http://history.nasa.gov/marschro.htm.

  ——. “The Mariner Mars Missions.” NASA/NSSDC, Goddard Spaceflight Center. Last modified 2005. Accessed 2011. http://nssdc.gsfc.nasa.gov/planetary/mars/mariner.html.

  ——. “Mars Pathfinder.” Accessed 2011. http://www.nasa.gov/mission_pages/mars-pathfinder/.

  ——. “Phoenix Mars Lander.” Accessed 2011. http://www.nasa.gov/mission_pages/phoenix/main/index.html.

  ——. Review of NASA's Planned Space Program. Washington, DC: National Academy Press, 1996. Accessed 2011. http://books.google.com/books?id=3z0rAAAAYAAJ&pg=PA6&dq=nasa+mariner&hl=en&ei=OOXnTr7sHozMiQKbyeH-Bg&sa=X&oi=book_result&ct=result&resnum=3&ved=0CEMQ6AEwAjgK#v=onepage&q=nasa%20mariner&f=false.

  ——. “Slam-Dunk Sign of Ancient Water on Mars.” NASA Science: Science News. December 8, 2011. Accessed 2011. http://science.nasa.gov/science-news/science-at-nasa/2011/08dec_slamdunk/.

  ——. “Viking, Mission to Mars.” Accessed 2011. http://www.nasa.gov/mission_pages/viking/.

  ——. “Viking Project Launch and Mission Operations Status Bulletin No. 7.” NASA, Langley Research Center. June 23, 1975. Accessed 2011. http://www.scribd.com/doc/44042526/Viking-Lander-Sterilization.

  National Aeronautics and Space Administration (NASA)/ Goddard Space Flight Center. “Lunar and Planetary Science: Mars.” Accessed 2011. http://nssdc.gsfc.nasa.gov/planetary/planets/marspage.html.

  National Aeronautics and Space Administration (NASA)/Jet Propulsion Laboratory (JPL). “Mars Climate Orbiter Failure Board Releases Report, Numerous NASA Actions Underway in Response.” November 10, 1999. Accessed 2011. http://mars.jpl.nasa.gov/msp98/news/mco991110.html.

  ——. “Mars Exploration Program: Historical Log.” Accessed 2011. http://mars.jpl.nasa.gov/programmissions/missions/log/.

  ——. “Mars Exploration Rovers Press Releases.” Accessed 2011. http://marsrovers.jpl.nasa.gov/newsroom/pressreleases/index.html.

  ——. “Mars Pathfinder.” Accessed 2011. http://mars.jpl.nasa.gov/MPF/.

  ——. “Mars Reconnaissance Orbiter.” Accessed 2011. http://marsprogram.jpl.nasa.gov/mro/.

  ——. “Mars Science Laboratory.” Accessed 2011. http://marsprogram.jpl.nasa.gov/msl/mission/.

  ——. “Report from Mars, 1964-1965.” Accessed 2011.www.scribd.com/doc/44038607/Report-From-Mars-Mariner-4-1964-1965.

  ——. “Spirit and Opportunity, Mars Exploration Rovers.” Accessed 2011. http://www.nasa.gov/mission_pages/mer/index.html.

  ——. “U.S. Participation in Europe's Mars Express.” Accessed 2011. http://mars.jpl.nasa.gov/express/.

  National Aeronautics and Space Administration (NASA)/Jet Propulsion Laboratory (JPL)/ Planetary Data System. “Viking 1 & 2.” Accessed 2011. http://pds.jpl.nasa.gov/planets/welcome/viking.htm.

  Planetary Society. “Mars Exploration Rovers Update” (miscellaneous dates). Accessed 2011. http://www.planetary.org/news/2011/0901_Mars_Exploration_Rover_Update.html.

  ——. “Mars Express.” Accessed 2011. http://planetary.org/explore/topics/mars_express/.

  “Report: Mars Pathfinder,” Science 278, no. 5344 (December 1997): 1734-42. Accessed 2011. http://www.sciencemag.org/content/278/5344/1734.full.doi:10.1126/science.278.5344.1734.

  Soffen, Gerald A. “Scientific Results of the Viking Missions.” Science 194, no. 4271 (December 1976): 1274-76. Accessed 2011. http://www.sciencemag.org/content/194/4271/1274.abstract.doi:10.1126/science.194.4271.1274.

  Space News. “Mars Science Lab Needs $44m More to Fly, NASA Audit Finds.” June 8, 2011. Accessed 2011. http://www.spacenews.com/civil/110608-msl-needs-more-nasa-audit.html.

  University of Arizona. “Phoenix Mars Lander.” Accessed 2011.http://phoenix.lpl.arizona.edu/index.php.

  GENERAL REFERENCES

  Caltech CODA: Oral Histories Online (used by permission): http://oralhistories.library.caltech.edu/.

  European Space Agency: http://www.esa.int/.

  Mars Society (for general information on FMARS and Earth-based Mars research): http://www.marssociety.org/.

  National Aeronautics and Space Administration (NASA)/ Astrobiology Magazine: http://www.astrobio.net/.

  National Aeronautics and Space Administration (NASA)/Jet Propulsion Laboratory (JPL) BEACON Information Commons: http://beacon.jpl.nasa.gov/site-index.

  National Aeronautics and Space Administration (NASA)/ Jet Propulsion Laboratory (JPL) Mars Exploration Program: http://mars.jpl.nasa.gov/.

  National Aeronautics and Space Administration (NASA)/Johnson Space Center, History Portal: http://www.jsc.nasa.gov/history/oral_histories/participants.htm.

  National Aeronautics and Space Administration (NASA)/Lunar and Planetary Institute: http://www.lpi.usra.edu/.

  National Aeronautics and Space Administration (NASA)/National Space Science Data Center: http://nssdc.gsfc.nasa.gov/.

  National Archives: http://www.archives.gov/.

  National Science Foundation (for Antarctic research and projects): http://www.nsf.gov/.

  Niels Bohr Library and Archives, American Institute of Physics (used by permission): http://www.aip.org/history/ohilist/.

  Illustrations and photos are indicated by bold page numbers.

  accelerometers, 311–12n2

  Acidelia. See photo section

  Adirondack (Spirit's first rock), 179, 180

  aerobraking, 109–10, 117–18, 150, 159, 199–201

  example of, 200

  as a way to save fuel, 109, 159, 199

  See also photo section

  aeroshell, 18, 19, 124, 135

  See also photo section

  airbags, 245

  and the Mars Exploration Rovers, 173, 174, 185, 186

  and Mars Express, 144

  not being used for MSL lander, 254

  and Pathfinder, 124–25, 127, 135–36, 147, 282

  and the Phoenix lander, 245

  air on Mars. See atmosphere on Mars

  airplanes, developing for Mars use, 269

  Alba Mons (aka Alba Patera), 30–32

  albedo features on Mars, 33

  Albor Tholis (volcano), 31

  Aldrin, Buzz, 268

  Alice in Wonderland (Carroll) and naming Mars features, 238

  Alpha Proton X-Ray Spectrometer (APXS), 123, 131, 172, 256, 261, 281

  Al Qahira (ancient Arabic name for Mars), 37

  altimeter, 111, 124

  radar altimeter, 124, 144–46

  Amazonian Period, 33

  Amazonis Planatia (Amazonian Plain), 33

  American Association for the Advancement of Science, 43

  American Astrono
mical Society, 189

  Ames Research Center (NASA), 247, 271, 273, 283

  ammonia on Mars, 145

  andesite rock, 131

  Angaraka (Sanskrit name for Mars), 37

  Angry Red Planet (movie), 49

  Antarctica, 214, 243, 276, 283, 284, 309n1 (chap. 24)

  as analogy for Mars, 104, 204, 248, 271, 274, 276–77, 278, 284–85

  katabatic (gravity-fed) winds (aka drainage wind), 276, 312n2

  meteors found that originated on Mars, 36

  Antoniadi, Eugene (efforts to map Mars). See photo section

  Apollo program, 21, 73–74, 136, 152, 177, 198, 253, 255, 257, 268, 291, 298n2

  Apollo-Soyuz Test Project, 291

  Apple iPhone®, 311–12n2

  Apple Macintosh®, 159, 196, 310n2

  APXS. See Alpha Proton X-Ray Spectrometer

  Arabia Terra (Land of Arabia), 33, 163

  Arctic as analogy for Mars, 274, 276–77, 285–87

  See also Devon Island

  Ares (Greek name for Mars), 38

  Ares Vallis, 125–27, 281

  Arkhangelsky Crater. See photo section

  Armstrong, Neil, 215, 268

  Arsia Mons (shield volcano), 30

  Artistarchus of Samos, 39

  Ascraeus Mons (shield volcano), 30

  ASP. See automated sequence processor

  asteroid, mission to visit, 190, 293–94

  Atacama Desert, 271, 273–76, 284

  Atlas rocket, 302n1

  atmosphere on Mars, 27, 34, 35, 41, 74, 91, 135, 145, 209–10

  atmospheric pressure, 32, 66, 101–102

  measuring atmospheric effect on radio waves, 53

  spectroscopic analyses of, 45, 64

  See also weather on Mars

  atomic force microscope (AFM), 233

  Aurorae Sinus (Bay of the Dawn), 33

  automated sequence processor (ASP), 116

  autonomous hazard-avoidance software, 178, 181

  avalanches on Mars, 206–207

  See also photo section

  axial tilt of Mars, 27–28, 34, 40

  barchan (type of sand dune).

  See photo section

  “Barnacle Bill” (Sojourner's first rock), 121, 127–28

  Barsoom (name for Mars in Burroughs's literature), 49

  basalt rock, 30, 33, 131

  See also volcanic activity on Mars

  bathtub ring (layer of sediment around Victoria Crater), 222

  BDL. See “Big, Dumb Landers”

  “beach balls.” See airbags

  Beagle 2 lander, 144, 145

  Berry Bowl, 185–86

  See also “blueberries”

  “Big, Dumb Landers,” 20, 126

  Big Mac®, cost of compared to big Mars missions, 121

  “blueberries” (hematite spherules), 182–83, 185–86, 213, 215, 222–23, 262

  See also photo section

  Bonneville (crater approached by Spirit), 183

  Borealis Basin, 31–32

  Bradbury, Ray, 49–50

  “bridles” used to assist MSL lander, 254

  brightness. See albedo features on Mars

  Brin, David, 261

  Brooks, Robert (Bob), 115–21

  Burroughs, Edgar Rice, 28, 49

  Bush, George W., 291–92

  calcium carbonate, 240–41

  California Institute of Technology (Caltech), 23, 58, 67, 69–70, 79, 87, 99, 154, 267

  Cameron, James, 255

  Cameron, Roy, 104

  Campbell, William Wallace, 44–45

  Canadian Arctic. See Arctic as analogy for Mars

  canals of Mars theory of Lowell, 45–48, 47, 102–103

  of Schiaparelli, 43–44

  See also photo section

  Canopus star sensor, 63, 198

  Cape Canaveral, 107, 150

  Cape Verde (inside Victoria Crater). See photo section

  carbon 14, 88–89

  carbonates, 211, 248

  calcium carbonate, 240–41

  carbon dioxide on Mars, 29, 34, 64, 66, 91, 102, 145, 209, 238

  Carter, John (fictional character), 49

  Carter, Julia (fictional character), 289–90

  Case for Mars, The (Zubrin), 285–86

  Cassini, Giovanni, 40

  Cassini mission, 243, 309n1 (chap. 22)

  Centauri Montes (crater), 113

  Center for Planetary Exploration, 99

  Ceres (asteroid), 267

  Challenger (space shuttle), 302n1

  ChemCam, 256

  Chinese space plans, 293

  Chryse Planitia (Golden Plain) (Viking 1's landing spot), 21, 23–24, 86–87, 90, 91, 126

  fictional letter from, 289–90

  See also photo section

  clays, water-derived, 204, 248, 258

  climate of Mars. See weather on Mars

  clouds. See weather on Mars

  CNN (TV network), 141

  Cobra Heads (rocks examined by Spirit), 214

  Collier's Weekly (magazine), 291

  Columbia (space shuttle), 174, 192, 217

  Columbia Hills (in Gusev), 183, 187, 191–92, 213, 214

  communications

  with Earth from Mars, 89. See also photo section

  dealing with time lag, 18, 52–53, 89, 139, 176–79, 221, 231

  and the MER rovers, 171–72, 179–80

  with MPL, 153–54

  with Pathfinder, 129–31

  with Viking 1 lander, 91–93

  US communications with space vehicles

  Mars Climate Orbiter, 151

  Mars Global Surveyor ending communication, 113–14

  Mars Observer, 107–108, 149

  See also Deep Space Network

  Compact Reconnaissance Imaging Spectrometers for Mars (CRISM), 196–97, 205

  Constellation/Mars mission, 293–94

  Context Imager (CTX), 196–97, 204–205

  Cook, Richard, 151–52

  Copernicus, Nicolaus, 39

  Cornell University, 189, 190, 267

  Cosmos 419 (Soviet Union), 149

  craters on Mars, 29, 31, 51, 54–56, 59, 86, 111, 161, 187, 192–93, 207

  formation of in Noachian Period, 32

  hydrated materials found in, 203

  See also names of specific craters, i.e., Bonneville, Victoria, etc.

  CRISM. See Compact Reconnaissance Imaging Spectrometers for Mars

  Crisp, Joy, 261–65

  “cross-lamination,” 185

  Crystal Cave (Mexico), testing for noninvasive analysis, 283–84

  CTX. See Context Imager

  Curiosity (rover), 253–59, 262

  compared to other rovers, 253–54

  See also Mars Science Laboratory project

  cyanobacteria, 284

  Cydonia area, 112

  DAN. See Dynamic Albedo of Neutrons device

  day (sol), length of on Mars, 27, 40, 124, 238

  “dead Mars” group, 34, 81

  See also photo section

  decontamination, need for. See planetary quarantine of Mars

  Deep Space 1, size of data return from, 309n1 (chap. 22)

  Deep Space 2, failure of, 150

  Deep Space A and B (impactors), 153

  Deep Space Network (DSN), 61, 69–70, 231

  See also photo section

  Deimos (terror) (name of one of Mars's moons), 38, 43, 77, 184

  See also photo section

  de-Lowellization of beliefs about Mars, 102–103

  Delta rocket, 108, 109, 152, 158, 302n1

  descent imagers. See DISR (the Descent Imager/Spectral Radiometer); Mars Descent Imager

  Devon Island (in Arctic, site of FMARS), 271, 272, 274

  dirt on Mars. See soil on Mars

  Discovery Channel (TV network), 272

  Discovery Program, 123–32

  DISR (the Descent Imager/Spectral Radiometer), 244

  distance

  be
tween Mars and Earth, 27, 39, 52–53, 144, 158–59

  of Mars from the sun, 46

  Dr. Carl Sagan Memorial Station, 124

  Dodo (trench dug by Phoenix), 237

  Dragon® capsule, 292, 294

  drainage wind (aka katabatic or gravity-fed), 276, 312n2

  driver's education classes for rover drivers. See Field Integrated Design and Operations

  DSN. See Deep Space Network

  Duck Bay (in Victoria Crater, found by Opportunity), 221

  dust on Mars

  dust clouds, 75, 75–76, 80, 206–207

  dust storms, 75, 75–76, 78, 80, 85, 91, 210, 221–22. See photo section; weather on Mars

  DVD containing four million names, 174–75

  Dynamic Albedo of Neutrons device (DAN), 256

  Eagle Crater (actual landing site for Opportunity), 181–82, 185, 186, 192, 223, 226

  Earth

  life beginning on Mars and coming to Earth, 35–36, 299n5

  and Martian meteorites, 131

  as a “terrestrial” planet, 298n3

  using places on Earth to mimic Mars, 271–79, 281–88. See also names of specific places, i.e., Antarctica, Atacama Desert, etc.

  See also communications

  earth organisms, danger of on Mars. See planetary quarantine of Mars

  earthquakes. See “Marsquakes”

  El Capitan (area near Opportunity Ledge), 182

  Electra (radio on MRO), 198

  elevations of Martian topography, 111

  Elysium Mons (volcano), 31, 145–46

  Endeavor Crater (targeted by Opportunity), 193, 225, 226, 228

  See also photo section

  Endurance Crater (searched by Opportunity), 186–87, 214–15, 217, 223, 226

  engineering experiment as description of Mariner 6 and 7, 63, 68

  HMS Erebus (British exploration vessel), 309n1 (chap. 24)

  Erebus Crater (Opportunity examined), 219, 309n1 (chap. 24)

  European Space Agency, 200, 267, 297n1

  and the ExoMars probe, 146, 268, 306n4, 311n1 (chap. 29)

  and the Mars Express mission, 143–46

  potential missions 2021–2030, 294

  EVAs (Extra Vehicular Activities), 272

  ExoMars probe, 146, 268, 306n4, 311n1 (chap. 29)

  Explorer program, 57, 267

  explosions, use of, 23

  extraterrestrial life. See life on Mars

  Extra Vehicular Activities. See EVAs

  face in the Cydonia area, 112, 303n3

  Failure Review Board, 153

 

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