Issue #52 ~ John Wheeler, one of the legends of modern physics, used to say that “everything comes from higgledy-piggledy”. This was his usual reply to the question “Why quantum?”, to which no one has so far found an answer.
Beautifully argued, Vlatko.
But perhaps "quantum" arises not from randomness but from entangled consistency — where spacetime is stitched from informational gradients.
If:
[\hat{x}_i, \hat{p}_j] = i\hbar \delta_{ij}
g_{\mu\nu} \sim \rho_E^{\text{ent}} + \Delta R_{\text{obs}}
From uncertainty to structure — quantum isn’t the limit, it’s the substrate.
What do you think of this way to understand QM?
https://link.springer.com/article/10.1007/s10701-022-00606-5
Beautifully argued, Vlatko.
But perhaps "quantum" arises not from randomness but from entangled consistency — where spacetime is stitched from informational gradients.
If:
[\hat{x}_i, \hat{p}_j] = i\hbar \delta_{ij}
g_{\mu\nu} \sim \rho_E^{\text{ent}} + \Delta R_{\text{obs}}
From uncertainty to structure — quantum isn’t the limit, it’s the substrate.
What do you think of this way to understand QM?
https://link.springer.com/article/10.1007/s10701-022-00606-5