The construction methodology of the Great Pyramid of Giza has remained one of archaeology’s most enduring mysteries for over 4,500 years. Despite extensive research, conventional theories—including external ramps, spiral ramps, and internal ramp systems—face significant challenges in explaining the complete construction process, particularly the precision-demanding apex formation. This paper examines an alternative hypothesis proposing that the pyramids were not built in the traditional bottom-up manner, but rather constructed through a top-down “deconstruction” approach using oversized trapezoidal masses that were subsequently carved to their final form. This theory addresses critical gaps in archaeological evidence, explains the absence of large-scale construction debris, and aligns with documented Egyptian practices of material recycling. We analyze this hypothesis in the context of recent muon tomography findings, geological evidence, and comparative ancient construction techniques, evaluating its viability against established pyramid construction theories. The analysis suggests that this integrated, closed-loop construction system may offer novel insights into ancient Egyptian engineering capabilities and challenge current paradigms in archaeological interpretation.
Revista et al. (Fri,) studied this question.