Quantum Superposition Copenhagen Interpretation Schrodinger's Cat Experiment.
Quantum Superposition is a fundamental source of quantum mechanics. It states that many like waves in classical physics, any two quantum states can be added together and the decision will be another valid quantum state, and conversely, that every quantum state can be represented being a sum of two or more other distinct states.
This is a post by astromate, Mathematically, it refers to a property of solutions to the Schrodinger equation, since the Schrodinger equation is linear, any linear combination of solutions will also be a solution.
According to the Copenhagen interpretation, physical methods generally do not have definite properties prior to remaining measured, and quantum mechanics backside only predict the expectation combination of a given measurement's plausible results.
The act of the measurement affects the system, causing the organization of probabilities to decrease to only one of the possible values directly after the measurement. This feature is identified as wave function collapse. There have been many complaints about the Copenhagen interpretation over the years.
These include discontinuous jumps when there is an observation, the probabilistic element introduced upon observation. The subjectiveness of requiring an observation, the difficulty of defining a measuring device, and the requirement of invoking serious physics to describe the Laboratory in which the results are checked.