a . “The whole subject of the origin of the moon must be regarded as highly speculative.” Robert C. Haymes, Introduction to Space Science (New York: John Wiley & Sons, 1971), p. 209.
u On 10 November 1971, Dr. Harold Urey, a Nobel prize-winning chemist and lunar scientist, stated “I do not know the origin of the moon, I’m not sure of my own or any other’s models, I’d lay odds against any of the models proposed being correct.” Robert Treash, “Magnetic Remanence in Lunar Rocks,” Pensee, Vol. 2, May 1972, p. 22.
u “In astronomical terms, therefore, the Moon must be classed as a well-known object, but astronomers still have to admit shamefacedly that they have little idea as to where it came from. This is particularly embarrassing, because the solution of the mystery was billed as one of the main goals of the US lunar exploration programme.” David W. Hughes, “The Open Question in Selenology,” Nature, Vol. 327, 28 May 1987, p. 291.
b . Paul M. Steidl, The Earth, the Stars, and the Bible (Grand Rapids: Baker Book House, 1979), pp. 77–79.
u M. Mitchell Waldrop, “The Origin of the Moon,” Science, Vol. 216, 7 May 1982, pp. 606–607.
u “If the Moon had separated from the Earth, it would either have broken away completely or returned, but it could not have gone into orbit.” Stacey, p. 38.
c . “... the 50Ti/47Ti ratio of the Moon is identical to that of the Earth within about four parts per million, which is only 1/150 of the isotopic range documented in meteorites.” Junjun Zhang et al., “The Proto-Earth as a Significant Source of Lunar Material,” Nature Geoscience, Vol. 5, April 2012, p. 251.
d . “The giant impact has major problems. It doesn’t produce the moon as seen.” David J. Stevenson, as quoted by Daniel Clery, “Impact Theory Gets Whacked,” Science, Vol. 342, 11 October 2013, p. 184.
u “The moon rocks, however, showed [oxygen isotope] ratios markedly similar to those of rocks from Earth. ‘The moon and Earth are indistinguishable on the oxygen isotope plot,’ Melosh said. The isotopes of other elements told the same story.” Jay Melosh, as quoted by Daniel Clery, Ibid.
e . “We conclude that an Earth system with multiple moons is the final result unless some particularly severe constraints on initial conditions in the disk are met.” Robin M. Canup and Larry W. Esposito, “Accretion of the Moon from an Impact-Generated Disk,” Icarus, Vol. 119, February 1996, p. 427.
f . “... no reasonable means to rid the Earth/Moon system of this excess angular momentum has yet been proposed.” Shigeru Ida et al., “Lunar Accretion from an Impact-Generated Disk,” Nature, Vol. 389, 25 September 1997, p. 357.
g “A collision big and hot enough to yield the moon’s magma ocean would have melted at least part of Earth’s surface as well. But geologists could not find any evidence that the mantle had ever melted. If it had, they expected to find that iron-loving elements such as nickel, tungsten, and cobalt had been drawn from Earth’s upper layers into its iron core. Instead, the concentration of iron-loving elements, called siderophiles, remains relatively high in Earth’s mantle. And other elements that should have segregated in a liquid mantle were instead commingled.” Karen Wright, “Where Did the Moon Come From?” Discover, Vol. 24, February 2003, pp. 65–66.
h . “This is a problem for the giant impact theory, says [Erik] Hauri. ‘It’s hard to imagine a scenario in which a giant impact melts, completely, the moon, and at the same time allows it to hold onto its water,’ he says. ‘That’s a really, really difficult knot to untie.’ ” Nell Greenfieldboyce, quoting Erik Hauri, “Glass Beads from Moon Hint of Watery Past,” www.npr.org/templates/story/story.php?storyId=92383117, 12 July 2008. [See Endnote 76 on page 332.]
i . Jack J. Lissauer, “It’s Not Easy to Make the Moon,” Nature, Vol. 389, 25 September 1997, pp. 327–328.