Below is the online edition of In the Beginning: Compelling Evidence for Creation and the Flood,
by Dr. Walt Brown. Copyright © Center for Scientific Creation. All rights reserved.
Click here to order the hardbound 8th edition (2008) and other materials.
a . H. H. Aumann and C. M. Gillespie Jr., “The Internal Powers and Effective Temperatures of Jupiter and Saturn,” The Astrophysical Journal, Vol. 157, July 1969, pp. L69–L72.
u “Jupiter radiates into space rather more than twice the energy it receives from space.” G. H. A. Cole, The Structure of Planets (New York: Crane, Russak & Co., Inc., 1978), p. 114.
u M. Mitchell Waldrop, “The Puzzle That Is Saturn,” Science, 18 September 1981, p. 1351.
u Jonathan Eberhart, “Neptune’s Inner Warmth,” Science News, Vol. 112, 12 November 1977, p. 316.
b . Ibid.
c . “The Mystery of Venus’ Internal Heat,” New Scientist, Vol. 88, 13 November 1980, p. 437.
d . To initiate nuclear fusion, a body must be at least ten times as massive as Jupiter. [See Andrew P. Ingersoll, “Jupiter and Saturn,” Scientific American, Vol. 245, December 1981, p. 92.]
e . Ingersoll and others once proposed that Saturn and Jupiter could generate internal heat if their helium gas liquefied or their liquid hydrogen solidified. Neither is possible, because each planet’s temperature greatly exceeds the critical temperatures of helium and hydrogen. (The critical temperature of a particular gas is that temperature above which no amount of pressure can squeeze it into a liquid or solid.) Even if the temperature were cold enough for gases to liquefy, what could initiate nucleation? When I mentioned this in a private conversation with Ingersoll in December 1981, he quickly acknowledged his error.
f . Paul M. Steidl, “The Solar System: An Assessment of Recent Evidence—Planets, Comets, and Asteroids,” Design and Origins in Astronomy, editor George Mulfinger Jr. (Norcross, Georgia: Creation Research Society Books, 1983), pp. 87, 91, 100.
u Jupiter would have rapidly cooled to its present temperature, even if it had been an unreasonably hot 20,000 kelvins when it formed. Evolutionary models require too much time. [See Edwin V. Bishop and Wendell C. DeMarcus, “Thermal Histories of Jupiter Models,” Icarus, Vol. 12, May 1970, pp. 317–330.]