The next room is of a vast size with a series of operations to be worked through, showing the birth and development of a planet.
Here we see a process taking place where clouds upon clouds of dust particles are floating freely in space. Now through the law of affinity, we see two different particles uniting as one. In doing so they take on a new sphere of action by becoming slightly heavier than they were singularly. Due to this uniting of the two as one, they become sort of masters over all other particles by now having a stronger influence than they had as single particles. It is almost the same as if you made a snowball and kept rolling it in snow until it became of a mammoth size.
So these united particles speeding on through clouds of dust draw more particles of dust unto themselves, thereby becoming a bigger and bigger ball. As it grows larger in size and heavier in weight, its speed also increases. At the same time the increasing speed compresses the particles tighter and tighter to adherence unto each other into more solidification.
During this process of growth and rapid whirling through space, the ball has made its own orbit within the system in which it is moving. Its orbit is a sphere of influence surrounding it, as well as a path that it will travel from now on, governed by the size and the speed of the ball. The larger the ball, the greater distance its influence will be felt.
It is similar to experiences most of us have had, when standing in dead calmness of atmospheric movement to let a car or a train pass by. If we stood too close to the moving object, there was a suction formed by its speed which had a tendency to draw us toward it; while at a certain given distance from it, there was a tendency to blow us away.
So it is with this ever-growing ball, this planet-in-the-making; its speed and size create what we know as gravitational force that pulls things unto itself out of space, while at a certain given distance away from it the force reverses or so-called gravity ceases.
Once the ball becomes a certain size and compression reaches a definite state, combustion within the center takes place. Since each particle of dust contains within itself in minute form, all elements known to man, the different minerals begin to melt and run into separate channels or lanes as the heat from the internal combustion grows in intensity. For instance, gold and silver melt into liquids through this terrific heat and flow within the ball into the channels of least resistance, lodging there in the form of veins. Other minerals do the same. If they happen to be of silica, they will not adhere tightly to each other when they meet, as rougher type minerals do, especially if the consistency of these glassy elements, like quartz, differ slightly from each other. Yet they meet. Because of their differences they do adhere to each other fair enough, but being very smooth, the union is not as firm as other minerals. This makes a weak spot in the ball which can easily slip through any sort of a jolt of sufficient intensity. Such a unification is known to man on Earth as a fault.
After the different ores are melted and flow together, the remaining portion of each tiny particle in the huge fast-whirling ball is tightly compressed into apparently solid or rocky formations, composing by far the greater part of this planet-to-be.
However there is nothing so solid but what is is porous. The gasses which have been freed by the heat of combustion within the center of this planet-in-the-making must escape someplace, so they begin to work through the ball to the surface, forced by a terrific pressure from within.
On their way to the surface a certain amount of the gasses unite while the rest continue outward. During the constant movement going on within the growing ball due to the heat, the melting and separating of the ores, the movement of the freed gasses and so on, pockets or cavities are formed inside the ball. Into these some of the united and condensed gasses flow, forming the underground rivers and lakes, as well as the pockets of oil made by the fatty residue of the particles that have been compressed, heated, and separated.