The Holographic Principle states that the information content of a three dimensional region is encoded on a two dimensional boundary. While powerful, the principle remains mathematically descriptive rather than mechanically explanatory. This paper presents a physically intuitive, mechanically grounded interpretation based on Push theory. In this framework, 2D information is carried instantaneously by radiation (n=1), while 3D matter (n=3) processes this information with a finite delay. This delay — a mass dependent phase lag — manifests as time (n=4). A universal projection angle determines how 2D information appears when interpreted by 3D matter. Mass introduces a vertical projection height, and the resulting horizontal displacement corresponds to the experienced flow of time. Photons, having no mass, have zero projection height and therefore experience no time. This model provides a mechanical interpretation of holography, time dilation, and the timelessness of light, while remaining compatible with existing relativistic observations.
Dirk Goussey (Thu,) studied this question.