Quantum entanglement is the name given to quantum mechanical assumption that all particles remain connected so that actions performed on one affect the other, even when separated by great distances. The rules of quantum physics state that an unobserved photon exists in all possible states simultaneously but, when observed or measured, exhibits only one state. … Read more
Quantum mechanics defines our observable physical environment only in terms of the probabilistic values associated with Schrödinger’s wave equation. More specifically it defines a particle in terms of the instantaneous collapse of a wave function which it assumes extends form one edge of the universe to the other. However this definition appears to contradict two … Read more
Quantum mechanistic defines our observable environment only in terms of the probabilistic values associated with Schrödinger’s wave equation. Many interpret this as meaning a particle and all other objects exists in a world of probabilities and only become connected to the environment when observed. Additionally it assumes that a particle is distributed or simultaneous exists … Read more
We know that everything in the universe including particles have physical size. Even so for the past 50 years, the Standard Model of particle physics which many say has given us the most complete mathematical description of the particles and forces that shape our world ignores this fact and treats them all as size less … Read more
Quantum mechanistic defines our observable environment only in terms of the probabilistic values associated with Schrödinger’s wave equation. Many interpret this as meaning a particle and all other objects exists in a world of probabilities and only become connected to the environment when observed. Additionally it assumes that a particle is distributed or simultaneous exists … Read more