The Millennial Project: Colonizing the Galaxy-- in 8 Easy Steps |
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Page 26
... produce . The world presently consumes the energy equivalent of 60 billion barrels of oil per year.7 The energy output of 1200 marine colonies could produce an equivalent flow of energy in the forms of electricity , hydrogen , distilled ...
... produce . The world presently consumes the energy equivalent of 60 billion barrels of oil per year.7 The energy output of 1200 marine colonies could produce an equivalent flow of energy in the forms of electricity , hydrogen , distilled ...
Page 110
... produce light at any desired wavelength . Chemical lasers cannot be tuned because they produce light at only one set wavelength , which depends entirely on the energy levels of their lasing materials . Electrons in a FEL can be made to ...
... produce light at any desired wavelength . Chemical lasers cannot be tuned because they produce light at only one set wavelength , which depends entirely on the energy levels of their lasing materials . Electrons in a FEL can be made to ...
Page 279
... produce anything , from ball bearings to saran wrap . The only materials the uni - fab can't produce are living tissues . You could feed in the appropriate instructions and materials needed to form a frog , but all you would get is frog ...
... produce anything , from ball bearings to saran wrap . The only materials the uni - fab can't produce are living tissues . You could feed in the appropriate instructions and materials needed to form a frog , but all you would get is frog ...
Contents
INTRODUCTION | 15 |
AQUARIUS Space Colony at Sea | 21 |
Malthusian Blues 22 Healing Gaia 25 CO2 Sponge | 28 |
Copyright | |
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The Millennial Project: Colonizing the Galaxy in Eight Easy Steps Marshall Thomas Savage No preview available - 1992 |
Common terms and phrases
accelerate algae amount anti-matter Aquarian Aquarius Asgard asteroid belt atmosphere atoms Avallon average beam Bifrost Bridge bubble carbonaceous chondrites civilization colonists comets cost crater create cubic cybergenic cycle deep water density diameter distance dome Dyson Earth ecosphere electrical electron energy engineering environment equator fuel galaxy gravity growth habitats heat human hydrogen inside interstellar kilogram kilometers laser Laser Propulsion launch capsule launch tube living lunar magnesium mariculture marine colonies Mars Martian mass materials megawatts membrane meteoroids meters Millennial Millennium Moon nitrogen nutrients oceans Oort cloud orbit OTEC outer oxygen payload Phobos planet planetary platform population pressure produce propellant protein require Rigil rocket sea cement sea water seed ship solar system Solaria space colonies speed of light Spirulina star structure surface temperature terraformed thousand tons trillion universe vapor virtually water shield York