Abstract

Pretend I know how to actually write these.
Noclipping is the colloquial title for the phenomenon when solid matter seemingly passes through other solid matter. This has a multitude of both effects and causes, all in relation to the fourth dimension. Each effect and cause will be explained in-depth with the current understanding of the topic. The causes of Noclipping are semi-stable w-axis charges, superposition particle charges, and false vacuum matter interactions. The effects of Noclipping are w-axis rotation, switching superposition charges, and the destruction of matter due to vacuum decay. Though the theories are well documented, the importance of the effects, and the connections to the rest of the Backrooms are not. The presence of w-axis interactions seems to be limited to the Backrooms, due to the stable nature of the Frontrooms, the colloquial title for the three dimensional portion of the w-axis that Earth resides.

The Semi-Stable W-Axis Charges

The main presumed cause of Noclipping is due to the semi-stable nature of charges across the w-axis. This, by nature, is not fully understood. The w-axis is a term coined to explain these phenomena. Much of matter in the Backrooms, if not all, is in a state oriented in the w-axis. This means that particles do not fully conserve energy in the third dimension alone. The electromagnetic charge from particles will not be fully detectable in the third dimension, and are instead transferred further in the w-axis. Due to this, seemingly random electromagnetic charges can be observed in the third dimension with no detectible source, but in relation to the w-axis, energy is conserved entirely. Since electromagnetic charges can be dispersed in the w-axis instead of the third dimension, matter can be neutrally charge from the perspective of the third dimension, while still keeping atomic bonds from the w-axis. Due to the nature of matter that is entirely neutrally charged—whilst still keeping atomic bonds—matter in the third dimension will not interact normally. Instead of the electromagnetic force from the two different solid pieces of matter forcing against each other, the matter that has the charge will not interact with the matter with a neutral charge whatsoever. This will be perceived as two solid pieces of matter passing directly through each other, which is Noclipping.

The Superposition of Particle Charges

Just as particles' charges are affected by the w-axis, the w-axis has quantum-mechanical properties that allow superpositions to take effect. In simple terms, a superposition is when an object, in this case particles, are in multiple states at once, that being the charge of said particles. This means that a particle can both be positively charged and negatively charge at the exact same time. This also allows a particle to both be charged and not charged at the same time. But once the object, or particle, is observed, it assumes a state, entirely based on probability. The nature of this is strange, as protons can be both charged and not charged at the same time, just as neutrons can be, leading to strange interactions between matter. In the case of the w-axis, it adds an entire dimension to the possible states of the particles, such as being both positively, negatively, and neutrally charged all at once, even while being observed. This is the nature of the w-axis, as once the particles are observed, not only does it assume a state, it assumes all the states, which is strictly impossible in the third dimension alone. When this happens to a severe degree, it is possible to have a state of matter that has the exact opposite charge as another piece of matter, therefore attracting it, yet also being neutrally charged so the two pieces of matter do not interact. The atomic bonds of the matter stays within reasonable strength in the w-axis, but is observably non-existent in the third dimension. This causes forced Noclipping, as the two pieces of solid matter are attracted to each other due to opposing electromagnetic forces, then proceed to phase through each other.

False-Vacuum Matter Interactions

When matter is oriented in the w-axis, it seems to experience a force similar to gravity. This pulls the matter to the most stable part of the w-axis possible. This is how the functions of the w-axis stay plausible, as in the unstable state, inconsistencies and even contradictions are directly made within the underlying phenomena. Since matter wants to be in the most stable part of the w-axis, it makes logical sense why the Frontrooms is so stable. But, a false vacuum is when the matter thinks it is in the most stable state, but is not. This means it is the most stable locally within the w-axis, but not the most stable globally, therefore it is slightly unstable, and has the potential energy to change. It has been determined that each level in the Backrooms, a colloquial term to describe the different locations of the Backrooms, is its own false vacuum, meaning all matter attempts to stay within it in the w-axis. It is to note that every level has a different resting state for its own false vacuum, some more unstable than others. The more unstable matter is in the w-axis, the more potential it has to spontaneously change itself, and the more interactions it has with the w-axis itself. When matter interacts with other matter in a false vacuum, it has the probability to spontaneously change in the w-axis orientation, therefore causing Noclipping. This can explain the previous phenomena, explain how such interactions could take place at all, and how the effects can take place.