Hadwiger number always upper bounds the chromatic number -- 1852-1943 -- A far-reaching generalisation of Guthrie's postulate

Abstract

In a simple graph G, we prove that the Hadwiger number, h(G), of the given graph G always upper bounds the chromatic number, (G), of the given graph G, that is, (G) ≤ h(G). This simply stated problem is one of the fundamental questions in combinatorial mathematics, which was made by Hugo Hadwiger in 1943. Consequently, it independently verifies the most famous Four-Color Theorem: the case h(G) = 4 is equivalent to the Four-Color Theorem, that is, every planar graph is 4-colourable. In our novel approach, we use algebraic settings over a finite field Zp. The algebraic setting, in essence, begins with the complete graph with h(G) vertices (which is a minor, M, of the given graph G) and iteratively extends to the simple graph G. This conjecture has remained elusive, owing to a lack of understanding of the interdependence, particularly the importance of Lemma 3.1, Lemma 3.2, Lemma 3.3, and Lemma 3.6 in Section 3.