Entanglement: Instant Effects not at 'c'

[Gibsense]

I remember reading a post from someone who said that the effect of entangled particles happened at the speed of light. This statement was incorrect. It may have been Jim with a concept Typo

But anyway I want to mention 4 spatial dimensions in this context which makes some sense. Maybe, maybe not.

We can observe the instant effects of entangled particles only after the effects on both are compared. It is not possible to transmit information between the 2 particles. Nevertheless, it is extraordinary that no matter how far apart the particles are if something happens to one the other knows instantly. How can this be explained without the usual "well that's Quantum mechanics for you"?

That is the position in our 3D space. However, consider our reality as existing in at least 4 Spatial dimensions. The entangled particles might be intimately connected if we perm any 3 from 4 or more dimensions. They may have a reality existing in more than our familiar 3 dimensions.

Extra dimensions—beyond our observable three-dimensional space and one dimension of time—might exist and influence how particles interact. The entangled particles could be viewed as connected in these higher dimensions, making their instantaneous connection more comprehensible. It's as if their entanglement exists in a different "space" where the conventional limitations of distance and time don't apply, much like how aligning two distant objects can make them appear as one from a specific perspective.

What do you think (only 3 rude words allowed ) ?

 

[Ed Stauffer]

Electrons are a particle that is summoned from a soup of electrons. Is it electromagnetism that lets them appear here momentarily? Are the electrons we measure the same as we measured a split second ago as they are not in the same place? These were the questions that got me started thinking.

Electrons are the key they are in QL soup mostly out of spacetime. They are like puzzle pieces that fit but there are many pieces floating around that will fit. They stay in the QL soup until they are summoned by measuring. We see electrons popping into atoms to maintain the balance. When we fire an election it causes ripples in the waiting candidates, this is why we see an interference pattern from the double slit experiment. If we measure after it is fired we establish a vector so only the electrons along this vector can hit the wall. This entanglement would explain the particle wave quandary. If this is the case what else is in the soup. Entanglement has been shown to be instantaneous the soup being outside of spacetime is subject to other rules. Outside of spacetime there is no space between everything and so there is no time between changes for anything in spacetime that is connected outside of spacetime through entanglement.