A Quote by Robert Moss

Quantum physics shows us the universe as a dynamic web of connection. — © Robert Moss
Quantum physics shows us the universe as a dynamic web of connection.
Through experiments over the past few decades physicists have discovered matter to be completely mutable into other particles or energy and vice-versa and on a subatomic level, matter does not exist with certainty in definite places, but rather shows 'tendencies' to exist. Quantum physics is beginning to realise that the Universe appears to be a dynamic web of interconnected and inseparable energy patterns. If the universe is indeed composed of such a web, there is logically no such thing as a part. This implies we are not separated parts of a whole but rather we are the Whole.
Everyone and everything that shows up in the world of form in this universe originates not from a particle, as quantum physics teaches us, but from an energy field.
Nevertheless, all of us who work in quantum physics believe in the reality of a quantum world, and the reality of quantum entities like protons and electrons.
I never studied science or physics at school, and yet when I read complex books on quantum physics I understood them perfectly because I wanted to understand them. The study of quantum physics helped me to have a deeper understanding of the Secret, on an energetic level.
We couldn't build quantum computers unless the universe were quantum and computing. We can build such machines because the universe is storing and processing information in the quantum realm. When we build quantum computers, we're hijacking that underlying computation in order to make it do things we want: little and/or/not calculations. We're hacking into the universe.
Quantum physics is the physics of possibilities. And not just material possibilities, but also possibilities of meaning, of feeling, and of intuiting. You choose everything you experience from these possibilities, so quantum physics is a way of understanding your life as one long series of choices that are in themselves the ultimate acts of creativity.
When asked ... [about] an underlying quantum world, Bohr would answer, 'There is no quantum world. There is only an abstract quantum physical description. It is wrong to think that the task of physics is to find out how nature is. Physics concerns what we can say about Nature.'
Quantum physics thus reveals a basic oneness of the universe.
I'm a person who's very interested in science and the universe and quantum physics and astrophysics.
I'm a big believer in quantum physics, which says that the universe is more incredible and mysterious than any of us can imagine, which is my way of saying, 'Anything is possible, including angels.'
Everyone and everything that shows up in the world of form in this universe originates not from a particle, as quantum physics teaches us, but from an energy field. That energy field can be called God, soul, spirit, or consciousness. It looks a certain way, sounds a certain way, and feels a certain way. I try to stay in harmony with what I believe it sounds and feels like.
What really matters for me is ... the more active role of the observer in quantum physics ... According to quantum physics the observer has indeed a new relation to the physical events around him in comparison with the classical observer, who is merely a spectator.
The history of the universe is, in effect, a huge and ongoing quantum computation. The universe is a quantum computer.
We could tell them [alien civilization] things that we have discovered in the realm of mathematical physics, but there is stuff that I would like to know. There are some famous problems like how to bring gravitation and quantum physics together, the long-sought-after theory of quantum gravity. But it may be hard to understand the answer that comes back.
In modern physics, the universe is experienced as a dynamic inseparable whole which always includes the observer in an essential way.
Classical physics has been superseded by quantum theory: quantum theory is verified by experiments. Experiments must be described in terms of classical physics.
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