¶ balloon (1)
Index Entry
If we make a microscopic inspection of a pneumatic balloon, we will find that the balloon skin is full of holes between its molecular chains, with a secondary and far smaller space continuity of ‘all holes’ or ‘continuous space’ between the remotely islanded energetic components of each each molecule’s respective atomic nuclear constellations. All these humanly invisible balloon ‘holes’ are too small for molecules of gas to escape through. Because the balloon’s skin is full of holes, it is really a subvisible spherical netting, rather than a ‘flexibly solid film,’ within which the gaseous element molecules are crowded into lesser volume than required by their respective energetic, ecological domains, like fish within a seiner’s net. The resultants of forces of all these net-frustrated molecular actions is angularly outward of the balloon’s geometrical center-- each surface molecule of the interior group of pressured gas has a vectorial action and reaction pattern identical to a spherical chord. In such enclosure of pressured gas, random sizes of molecules, each too large for the spherical molecular netting’s holes, impinge randomly upon the interior webbing of the spherically [Cite reference in IE1, pp 169-170]
