19 August 2012
Let's get into Theoretical Physics for a sec. By that I mean none of this is relevant to any previously noted research on Physics. Besides obvious details.
00
Pretend there's a line. It's invisible to the human eye, but it represents the bending, meaning changing from a straight line to a curved line, of an object. If this object, when acted on by another body of mass, changes the attribute of the object it parents from its original straight figure to a curvier, more spherical figure, then the line holds the responsibility for the actions of the parented object. For this example, well use a sponge for the parented object. Let's say I place a much heavier object, like a baseball or a brick onto the sponge. The imaginary line has now been effected by the body of mass I placed onto it, and creates a curvier shape, downward. Now let's pretend the parented object is a sheet of paper. If I place an object heavier than the paper, and of a different shape of the paper, including squares and rectangles, the line will move upward, causing the paper to wrap behind the object placed beneath it.
01
Now lets pretend this imaginary line can now alter the object in more ways that creating upward and downward curves. Now the line creates vulnerability in the object, by being able to expand the object. Now as an example, the parented object is now a much more vulnerable object, in order to allow it to expand and revert to original positions. The parented object is now a thin layer of putty. When I take my hands and place them on the left and the right side of the putty, and pull, it creates a force acting upon the imaginary line. The imaginary line now expands, making the putty wider and wider as I stretch it out. If I apply pressure in a flat matter, I can push the putty inward, allowing it to revert back to normal size. This causes the line to change back into an almost identical state to the one it was in before. This, of course, because of the pushing force acted upon it.
02
Now let's pretend the line can fold. This is getting a bit complicated for the line, so pretend the line is as thick and thin as the object. Pretend I have expanded the putty to the state I had before, using the same balanced force. At this point, instead of attempting the near impossible by pushing the putty back to its original state, I can fold the putty and flatten it. When I fold the putty, an unbalanced force acts upon the invisible shape, as it's coming from only one direction. Now that the putty is folded, I can squeeze it, causing a series of pushing forces, until it's back to the way I had it.
Thanks for reading this short analysis of physics, for more information, go to school.
Physics 00 • Opuss № I