Quantum

One is called materialism, which says focus on the matter and don’t worry about the invisible stuff; matter is primary. The second feature of Newtonian mechanics is called reductionism, meaning if something is very complicated like a television set – I don’t know how a television set works, so I’ll take it apart and see how every little piece works inside. And when you get all the pieces inside and have an understanding of what they all do, then you’ll have an understanding as to how the television works. So if you put that into biology and how that works, you would look at the chemistry, you want to understand how it works, so you take it apart and look at all the pieces, and when you understand the nature of the pieces you’ll be able to create equations or as we call them in biology, pathways.

A pathway is, for example, if I’m looking at digestion, I’ll look at a digestive pathway to get the equation. What I’m looking at is a linear sequence which is; fi rst the food comes in here, then this happens, then that happens, then this happens and so on, and all these sequences are making the equation, and then at the end I get ‘digestion’. So if I know all the steps from the food going in to the digestion at the end, then I know how digestion works, and if I know how it works, then I can manipulate it by adjusting the pieces from when the food came in, to when the food got digested. So we are making it like an equation, where A goes to B, goes to C, goes to D, goes to E, goes to conclusion. That’s a linear process, so that if B in my equation isn’t working right, and I don’t get the outcome, if I replace B, I can fi x the equation, and that’s called medicine. Medicine says I’ll put the physical thing back in to fi x the equation. That’s reductionism.

The last concept of Newtonian physics is called determinism. If I know all the pieces, how they line up, how they interact – if I know that, then I can by defi nition adjust the equation by adjusting the chemistry, and in the end control the outcome. So, medicine is deterministic. I know all the steps of the equation; I’ll found out which step of yours isn’t working right, I’ll give you a drug to replace that bad part of the equation, and the outcome is you will be healthy.

That’s all based on materialism, reductionism and determinism. Quantum mechanics does not replace Newtonian physics, Newtonian physics is still here – the equations are still the equations. Quantum physics is a bigger science, in which Newtonian is a part. The difference between the mechanics of quantum physics and Newtonian physics is profoundly different as quantum physics starts with the invisible forces as primary over the physical forces, and Newtonian didn’t even pay attention to this! Quantum physics says it’s not your choice to pay attention, or not, it’s by its defi nition that the energy fi elds are the shaper of the physical world. So the fi rst problem with Newtonian physics is it left out the energy that you didn’t see, and you couldn’t measure, and you didn’t think was relevant anyway, so there’s a problem right there.

The concept of reductionism totally fails for this reason. When I was talking about A, B, C, D, E; that’s like a straight line, like an equation, so, A+B+C+D+E= solution; that’s very interesting, but in reality the quantum physics is not linear. Imagine a 5 pointed star and at each point is A, B, C, D and E – A could talk to B, but A could talk to C, D and E, and B could talk backwards to A, and B could talk ahead to C, so what you start to see is in Newtonian physics is linear, but when you get to quantum mechanics, everything is entangled. So A not only affects B, but D and E as well, but not directly so you can’t easily see the connections because it’s a matrix of interconnected lines that makes it look a total jumble.

In Newtonian physics it’s straight reductionism; I have a disease, I have an equation, if one of those letters is off in the equation I supposedly will be able to fi x the disease by placing a drug in there. But in quantum world they are all interconnected, and basically I am not going to be able to determine the nature of the disease very easily, because when everything is connected, to a certain degree all the relationships become mind-boggling to try to calculate, and here’s the problem; if I treat this as a linear system and I put in a drug, let’s say I fi nd B not working well, so the reaction that goes from A to B to C, the

Quantum Health 9

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