¶ Trees
Index Entry
"being distributed. This is very good because the three bonds are tensionally much stronger than two bonds. One bond to pull apart in the pneumatics; two bonds to pull apart in the hydraulics; and three to pull apart in the crystalline.
“So we find nature-- in designing a tree-- sending a seed bouncing into the sky. Because the tree is rooted and can’t move, it has to get that seed out from underneath its shadow so the seeds can function as radiation impounders. And what goes into the seed is the strict instruction for the crystalline development. And crystals do grow; so the crystalline build the fibers-- and everything that is crystalline in the tree is the fibers to enclose the liquids, which are doing all the compression. And the liquid sac continuities are valved by osmosis. Water can only go one way, so it keeps being pulled in by the roots, keeping it hydraulically pumped up. Then the waters get going out at the top a little less rapidly that they’re coming in at the bottom, so it keeps the pressure up. So we have the crystalline acting in tension as a sac and in between them we get water molecules which act as the springs to take the shock loads. So you see then how this beautiful great tree is able to”
