Physical theories often define vastly more states than can ever be realized, leading to a fundamental distinction between formal possibility and physical realizability. Beginning with the Gibbs paradox, which illustrates how naïve counting overestimates microstates and produces non-extensive entropy, we show how the Sackur–Tetrode equation corrects this by trimming the set of physically admissible states. This principle of state censorship extends dramatically in quantum gravity: Bekenstein–Hawking black hole entropy demonstrates that the physically realizable Hilbert space is constrained by the horizon’s area, effectively forbidding configurations that cannot be encoded on the boundary. Generalizing this idea to the universe as a whole suggests that the temporal boundary—the evolving “Now”—similarly limits which states can ever exist, placing fundamental constraints on what can be computed or known. This essay argues that nature enforces these epistemic limits intrinsically, and that the structure of reality itself prevents the enumeration of all mathematically possible states.