java physics

• since the quantum world can not be observed directly, we are forced to use instruments as extensions of our senses
• however, quantum entities are so small that even contact with one photon changes their position and momentum = measurement problem
• 1st hint that the observer is an important piece of any quantum experiment, can not isolate the observer or their effects

• the two slit experiment is a good test of the role of the observer in the quantum realm
• any experimental design that attempts to determine which slit a photon has passed through (test for its particle nature) destroys the interference pattern (its wavelike nature)
• this is a breakdown of objective reality
• each quantum entity has dual potential properties, which become an actual characteristic if and when it is observed

How does the role of the observer effect the wave and particle nature of the quantum world? One test is to return to the two slit experiment and try to determine count which slit the photon goes through. If the photon is a particle, then it has to go through one or the other slit. Doing this experiment results in wiping out the interference pattern. The wave nature of the light is eliminated, only the particle nature remains and particles cannot make interference patterns. Clearly the two slit experiments, for the first time in physics, indicates that there is a much deeper relationship between the observer and the phenomenon, at least at the subatomic level. This is an extreme break from the idea of an objective reality or one where the laws of Nature have a special, Platonic existence.

If the physicist looks for a particle (uses particle detectors), then a particle is found. If the physicist looks for a wave (uses a wave detector), then a wave pattern is found. A quantum entity has a dual potential nature, but its actual (observed) nature is one or the other.