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The Measurement Problem: A Naive Start

 Quantum Mechanics is surely hard to grasp at the first instance with the loss of determinism and uncertainty but surely it has to be indeterministic to hold some explanation of the universe.   The Copenhagen Interpretation tells us that the state of the particle is distributed in the space and when we calculate the probability density of it then we observe the position getting collapsed to one. There is this something that collapses the whole probability to 1.  This something is termed as the measurement problem. REFERENCES: 1.  Statistical Interpretation  : Fundamental of Quantum Mechanics

Why Subatomic Particles Are So Uncertain with Position In Quantum Mechanics?

" Subatomic particles do not just sit around being subatomic particles. "     -  Gary Zuka The Observable Universe which is assumed to be 46.508  billion light years in size is fundamentally made up of 12 particles. Fermions, Bosons, Quarks, Leptons and Anti-particles (there are some hypothetical particles also), more on this later.  The particles have a very strange concept with their position. They tend to be nowhere until we find them everywhere.  Lets understand it with an example of Alex (an ordinary physics boy) who is in a house of five rooms. Our task is to find his location without entering in any of the rooms. Practically it seems absurd but mathematically, we can guess that Alex is probably in any one of the five rooms ( 1/5). Now lets dive into the Quantum Mechanical view of finding the particle in space.