Time is one of those philosophical questions that has taken on new ground lately. Can time be quantized, and if so, can it remain within classical physics? Einstein theorized that time was malleable and a physical property of space. Quantum mechanics looks below. Relativity looks up.
It has been known for awhile that electrons can be in a superposition before they go into an ultimate state, but it is not instantaneous. They have now been able to measure the gradual decline of an electron from a superposition state to an ultimate state. This is important because time is the bedrock that ties classical and quantum universes together.
Time allows all things to exist (below and above) and to attract to each other to create mass, space is like an ocean for all to exist in, gravity holds all things together, mass. To be born and to die all in seasons that are deterministic within the Natural Laws of conservation not accordingly to probabilities.
It has been known for awhile that electrons can be in a superposition before they go into an ultimate state, but it is not instantaneous. They have now been able to measure the gradual decline of an electron from a superposition state to an ultimate state. This is important because time is the bedrock that ties classical and quantum universes together.
Time allows all things to exist (below and above) and to attract to each other to create mass, space is like an ocean for all to exist in, gravity holds all things together, mass. To be born and to die all in seasons that are deterministic within the Natural Laws of conservation not accordingly to probabilities.