David Nadas

In quantum physics, the reason an object appears differently when observed vs. unobserved is due to quantum superposition and the measurement problem. This is a fundamental concept where quantum objects exist in all possible states at once (superposition) until an observation is made. When a measurement is taken, this superposition “collapses” into just one of the possible states.

Before observation, a quantum particle is described by a wave function, which represents the probabilities of it being in different states. The act of measurement—the “observation”—requires interaction with the quantum system. This interaction forces the particle to “choose” a definitive state, effectively collapsing the wave function into a single, observable outcome. This is a crucial concept, as it suggests that the act of measuring something changes the reality of that object in the quantum realm