Geosphere wrote:What if in tetra space it doesnt cancel?
It would cancel, just based on simple vector concepts. Let's boil this down to a single atom. This is going to be an n-dimensional argument, not tied down to any particular dimension.
Let's say this atom has an omnidirectional force on it. Let's also say this atom can't be pulled apart. Where does this atom go? Which one of the infinite number of directions that this force is pulling the atom does the atom follow? There are only two logical possibilities: It doesn't move, or it goes in a *random* direction out into n-dimensional space.
Step two: scale up. We now have millions of atoms. The omnidirectional force is acting on all of them. Let's assume the first hypothesis, that the each atom doesn't move. Then, none of the atoms are moving, so the force hasn't affected the object at all. Next, let's assume the second hypothesis, that an atom moves in a random direction when the omnidirectional force is applied. Where does the sum of these atoms go? Nowhere. Each atom moves in a random direction and collides with its neighbor atom, trying to go in a different direction. Utter chaos. The sum of the random directions is no movement. All you have accomplished was to energize the individual atoms, and you warmed up the object. The only thing this accomplishes is "warming" - no movement results.