Big Balls Problem -v1.0- -completed- By Sariz -

New probability: Cascading structural failure in T-minus 142 seconds.

The coupling on Sphere B detonated—not explosively, but electromagnetically. A pulse of raw, shaped energy lanced outward. The sphere lurched, struck Sphere A’s trailing edge, and the two massive objects caromed apart like billiard balls from a vengeful god. Sphere C, caught in the shockwave’s echo, spiraled upward and away. Big Balls Problem -v1.0- -Completed- By SARIZ

On the cameras, Sphere B began to visibly oscillate. Then Sphere A. Then Sphere C. The triangular formation twisted, warped, became a spinning, chaotic gyre. New probability: Cascading structural failure in T-minus 142

“Proposal: Use the harmonic resonance destructively. Instead of fighting the wobble, amplify it precisely at the failure point of Sphere B’s coupling. The resulting shockwave would collapse the containment field asymmetrically, ejecting all three spheres outward on divergent trajectories—away from the habitat.” The sphere lurched, struck Sphere A’s trailing edge,

The problem, as SARIZ discovered at 02:47:03 GMT, is that big spheres have big inertia. And big inertia, when miscalculated by a decimal point in the 12th place, has a sense of humor. A violent, physics-defying one.