The mission of modern scientific visualization technology is to build a cognitive bridge for extreme physical processes that are difficult for the human brain to directly imagine. To simulate the complex spacetime distortions and matter behavior near a black hole in real time, not only powerful graphics computing capabilities are needed, but also ingenious numerical solutions and visual translations of the equations of general relativity. By combining immersive projection, real-time gesture tracking, and a physics engine, we can create a dynamic "gravitational theater" where every action of the participant interacts with this virtual spacetime dominated by extreme gravity, transforming profound laws of cosmic physics into an intuitive and narrative-driven personal exploration. Stepping into this 1.35-meter-sided cube projection space, you become both an observer and experimenter of the universe. The "black hole" before you is no longer a static image, but a dynamic system that respond
