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A mathematical model developed by George Murphy that calculates the magnitude of the forces involved is available on request from Glenn Morton.Second, we would criticize this idea on the basis that it is too slow to be useful to the creationist agenda.

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But radioactivity gives off heat, and accounting for all the heat produced by the presumed increase in radioactive decay creates another huge heat problem.In a real crystal, the vibrating ions transfer energy back and forth with their neighboring ions, but as each ion moves, it will also lose some kinetic energy to the fabric of space within which it is moving.From our viewpoint, the energy does not go in any of the three directions we perceive; it simply disappears.Larry Vardiman writes: For example, if most of the radioactive decay implied by fission tracks or quantities of daughter products occurred over the year of the Flood, the amount of heat generated may have been sufficient to vaporize all the waters of the oceans and melt portions of the earth's crust, given present conditions.(Vardiman 2000: 8) Humphreys proposed a mechanism for absorbing the problem heat.(Baumgardner 1990: 37) Steve Austin and others (1994a: 612) endorsed this view several years later.

In the question-and-answer session after that talk captured on videotape (Austin and others 1994b), Russell Humphreys noted: Clearly, such quantities of heat are a huge problem for the young-earth creationist position.

One particle, say a molecule, bounces around in the box in a vacuum.

The box itself does not change size, for the reason I offered above, so the molecule does not lose energy to the walls of the box as it bounces off them.

One explanation (I know of no other) for why that should be so is that the force associated with the expansion is much smaller than the forces binding together stars in a galaxy (or particles in planets, people and atoms).

The expansion is only strong enough to overcome the feeble gravitational forces between galaxies.

Assuming that all particles in the universe are losing energy due to the cosmic expansion, the excess heat generated can be absorbed by these "cooled" particles.