When unidirectional energy displaces space, it may do so by temporarily transferring some of its energy to the inherent energy of space. This transfer of energy results in an imbalance to the energy of space that otherwise exists in a dynamic equilibrium. The energy of space reacts to the newly acquired energy by forming an opposing energy perpendicular to the “intruding” unidirectional energy.
There are three dimensions of energy that will be discussed here. It is easiest for unidirectional energy to displace the 1-D energy of space which offers the least resistance. So unidirectional energy will displace 1-D energy of space, which then forms 1-D magnetic energy at a right angle to provide maximum directional balance. When the unidirectional energy becomes too large for the energy of 1-D space to provide directional balance, then the unidirectional energy will displace 2-D space, causing the energy of space to react by forming 2-D magnetic energy to provide directional balance. And when the unidirectional energy becomes even too large for the energy of 2-D space to provide directional balance, then it displaces the energy of 3-D space, causing the energy of 3-D space to react by forming 3-D magnetic energy to provide directional balance.
The above description illustrates the displacement order of space. It does not address the roles of time energy and gravitational energy gradients in providing directional balance. They will be covered later.
1-D displacement of space: 1-D electromagnetic energy, such as photons and neutrinos
2-D displacement of space: 2-D electromagnetic energy, such as electrons and positrons
3-D displacement of space: 3-D electromagnetic energy, such as protons and neutrons