Understanding mathematics is not merely about memorizing its conclusions, but also about comprehending its dynamic construction process and inherent causal logic. The graph of a formula is a collection of countless points satisfying certain conditions; its drawing process is essentially a traversal and demonstration of spatial possibilities under these logical constraints. When a robotic arm executes this traversal process in an observable, physical way, it externalizes the continuous changes and spatial relationships implicit in the formula into a ritualistic generative narrative over a period of time. Watching the drawing process is like watching an idea being gradually visualized. The "Beauty of Formulas" exhibit meticulously designs this ritual of "visualizing thought." On the compact display stand, after selecting a formula, you will experience three levels of cognitive engagement: first, you will intuitively understand the formula's "intention" through animation; then, as the cl
