Where the vacuum density of spacetime is the highest, the pressure and temperature will be the lowest and the storm will be worse along the vacuum gauge field near the center of the disturbance and along the path integral(s). We live in a metastable universe.
“However, according to the conjectured gauge-gravity duality (also known as the AdS/CFT correspondence), black holes in certain cases (and perhaps in general) are equivalent to solutions of quantum field theory at a non-zero temperature. This means that no information loss is expected in black holes (since the theory permits no such loss) and the radiation emitted by a black hole is probably the usual thermal radiation. If this is correct, then Hawking’s original calculation should be corrected, though it is not known how (see below).”
1st try: Appears to be a Superpositioning problem…
2nd try: Tornado disturbance modeled using quantum (vacuum) field theory
Brane Crossing… OMG! Physicists can’t find 95% of the missing energy in the universe! OMG!
A tornado is an evaporating black hole that emerged from spacetime. It creates an inflation field around it with lots of condensing in the atmosphere. It is decaying to a lower energy vacuum state into higher dimensions of spacetime (ours)
References:
- https://en.wikipedia.org/wiki/2013_Moore_tornado
- http://www.scholarpedia.org/article/Path_integral
- http://www.einstein-online.info/elementary/quantum/evaporating_bh.html
- https://www.grc.nasa.gov/www/k-12/airplane/entropy.html
The sum over all possibilities: The path integral formulation of quantum theory
This spacetime particle from your decaying quantum vacuum field brings you vacuum inflation, the rains, the snow and the wind. It can create a curved spacetime and supply you with all the entropy you ever needed. You might just capture a snapshot of him popping out along those most probable paths.
Updated data/map. That Autism Cluster located in Northern LA County is Broadcast Microwave Radiation Central
Dark Matters a Lot 
