This episode explores the surprising connection between colliding blocks, pi, and quantum computing. The speaker begins by revisiting a popular 2019 video demonstrating how the number of collisions between two blocks of differing masses, when one impacts a wall, reveals digits of pi when the mass ratio is a power of 100. Against this backdrop, the speaker delves into the underlying physics, utilizing conservation of energy and momentum principles to model the system's dynamics in a state space represented as a circle. More significantly, the analysis transforms the problem into a geometric puzzle involving lines intersecting a circle, where the number of intersections correlates with the digits of pi. The speaker explains this connection through the inscribed angle theorem and the small-angle approximation, acknowledging that a rigorous proof remains an unsolved problem. Finally, the speaker connects this idealized classical physics puzzle to quantum computing's Grover's algorithm, promising a further exploration in a subsequent episode. This unexpected link highlights how simplifying a complex problem can reveal profound connections between seemingly disparate fields.