Total nonsense. The double slit experiment doesn't have a magically different outcome because observers projected some kind of consciousness mumbo jumbo onto the light.
The uncertainty principle is very simple: quantum systems are so small and delicate, that the simple act of measuring a quantum state causes the state to change. Why? Because the literal smallest observational tool, a single photon, is still strong enough to affect the outcome of a quantum experiment.
Also the idea of "water memory" is another joke, and the basic premise behind homeopathy, which is hopeful psuedo-science peddled as real medicine.
In order for you to observe something, light must be involved. Quantum systems are too small for us to see with our own eyes, so we use tools to do it in our place. But even then, tools have to use light, i.e., photons in order to do so. But quantum systems are so small, that a single photon, a single particle of light, still has enough energy to affect quantum particles.
Total nonsense. The double slit experiment doesn't have a magically different outcome because observers projected some kind of consciousness mumbo jumbo onto the light.
The uncertainty principle is very simple: quantum systems are so small and delicate, that the simple act of measuring a quantum state causes the state to change. Why? Because the literal smallest observational tool, a single photon, is still strong enough to affect the outcome of a quantum experiment.
Also the idea of "water memory" is another joke, and the basic premise behind homeopathy, which is hopeful psuedo-science peddled as real medicine.
How does this happen? Does it not happen by involving an observer?
What is the mechanism you are saying is wrong in the ops post re the double slit?
In order for you to observe something, light must be involved. Quantum systems are too small for us to see with our own eyes, so we use tools to do it in our place. But even then, tools have to use light, i.e., photons in order to do so. But quantum systems are so small, that a single photon, a single particle of light, still has enough energy to affect quantum particles.
Because a single photon inputs a substantial amount of energy at such a small scale. True.