- Dr. Walid Nabil.
- Cairo University, Geography Department, Cairo, Egypt.
This study proposes new pathways for understanding integers by reinterpreting them through their square roots, followed by averaging and re-evaluating the individual values relative to their numerical context. Beginning with the sequence of numbers from 1 to 9, we examine the implications of their arithmetic and square root means. Through comparative adjustments, we demonstrate that each integer can be associated with multiple realistic analogues—what we call its "Numerical counterparts."
For example, although the average of the numbers 1 through 9 is 5, this average does not represent each number accurately (e.g., 5 ≠ 1). By applying a corrective ratio derived from the average itself (e.g., 5 ÷ 1), we obtain a new representation for each number that reflects its proportional identity. When this method is extended using the square roots of the same set, the results form infinite sequences of alternative values for each integer.
This numerical framework opens the door to a regulated number system that may have broad implications across scientific disciplines, including mathematics, physics, geography, and astronomy.
