The short answer is that it is made of particles that are in such a certain relationship to each other that everything is connected. There are two basic components of this relation. The first is a spatial relation involving which a particle, or set of particles, is in space or at a particular location. The second is an informational relation involving the particles that make up a group. The latter is of paramount importance to quantum mechanics and quantum communication theory. The first is known as the wave equation and the former as the particle problem.
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We have seen how wave equations describe an external observer moving through a material space. The waves are defined and describe the position, momentum, position relative to an object, and speed of the observer. In essence, the wave equation is an equation which describes how the state of a system can change. An example would be if we had a water molecule and a glass of soda pop. The wave equation gives us the position and momentum of the water molecule and the position of the glass relative to the water. This is a direct equation so that the water molecules are not moving. They cannot be moving because their momentum is measured in units of a measure that is proportional to unit time. The glass and soda pop are moving because the position and position relative to the water are measured. The wave equation describes how those different measurements must occur, or they would be in different places. It is the reason that we can measure the velocity of a water molecule but no one can measure the momentum of a water molecule. So instead of thinking of a water molecule as moving in one direction, we will think of it as moving in two directions. If the wave equation gives us a position, a particle can also be called that position and can also be called that particle with a given momentum or at least its wave parameter. The wave equation also describes how the situation can develop through the interaction of particles with a fixed state such as that of water or a carbon atom. There are several more terms that the wave equation can describe which have to be explained further on.
The quantum wave equation also describes how an interaction can happen between particles. There are a number of possibilities regarding the interaction that can take place, one of them being that the interaction requires two particles interacting as if they were identical. A simple example of how this could occur is that electrons are thought to have an intrinsic spin. Any interaction that takes place between the spin of the electron and its orbital of two electrons would require the interaction to also take place between those two. The only
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