The statement that electrons change their behavior when human consciousness observes their wave-like function is not supported by scientific evidence and is not a widely accepted concept in the field of physics. This idea stems from a misinterpretation or a misapplication of certain interpretations of quantum mechanics, such as the observer effect or the collapse of the wave function.
In quantum mechanics, the observer effect refers to the idea that the act of measurement or observation can affect the state of a quantum system. However, this effect is not specific to human consciousness or the act of observation by a conscious observer. It simply means that the act of measurement introduces disturbances to the system being observed, leading to changes in its behavior.
The observer effect is not related to consciousness in the way it is often suggested in popular interpretations of quantum mechanics. It is more accurately described in terms of the interaction between the quantum system and the measurement apparatus, regardless of whether it is an automated device or a conscious observer.
Furthermore, the behavior of electrons is described by probability waves or wave functions in quantum mechanics. The wave-particle duality suggests that particles, such as electrons, can exhibit both wave-like and particle-like properties depending on the experimental setup. However, this behavior is not influenced by human consciousness or the act of observation. The wave-particle duality is a fundamental characteristic of quantum mechanics and is independent of any conscious observation.
It is important to distinguish between the interpretations and implications of quantum mechanics and their scientific basis. While there are ongoing debates and various interpretations of quantum mechanics, the idea that human consciousness directly influences the behavior of electrons in the way described is not supported by scientific evidence or widely accepted among physicists.