Top 561 Quantum Quotes & Sayings - Page 7

Typically my ideas come to me in the most inane ways possible. I had the initial idea for 'Quantum Conundrum' while I was walking down the street to get breakfast. People are like, 'Whoa, what's your inspiration, is it something amazing?' No, I was just really hungry.

It is a curious historical fact that modern quantum mechanics began with two quite different mathematical formulations: the differential equation of Schroedinger and the matrix algebra of Heisenberg. The two apparently dissimilar approaches were proved to be mathematically equivalent.

Humanity faces a quantum leap forward. It faces the deepest social upheaval and creative restructuring of all time. Without clearly recognizing it, we are engaged in building a remarkable new civilization from the ground up. This is the meaning of the Third Wave.

When I was at Berkeley, the framework of quantum field theory could calculate the dynamics of electromagnetism. It could roughly describe the motion of the weak nuclear force, radiation. But it hit a brick wall with the strong interaction, the binding force.

It was about three o'clock at night when the final result of the calculation [which gave birth to quantum mechanics] lay before me ... At first I was deeply shaken ... I was so excited that I could not think of sleep. So I left the house ... and awaited the sunrise on top of a rock.

I'm very moved by chaos theory, and that sense of energy. That quantum physics. We don't really, in Hindu tradition, have a father figure of a God. It's about cosmic energy, a little spark of which is inside every individual as the soul.

In Einstein's theory of relativity the observer is a man who sets out in quest of truth armed with a measuring-rod. In quantum theory he sets out with a sieve.

The field of quantum possibility, in which love has opened doors otherwise unimaginable, is our soul's true habitat. The world of fear and limitation is not our home, and who among us is not profoundly weary of hanging out where we do not belong.

Quantum physics - the idea that there is more than one reality going on at the same time in the same place. We live in a concentric society, and we'll have to make our decisions, cake as pie, as pending resolve. It's really and truly - I don't know if "as" will count any longer.

The most important single thing about string theory is that it's a highly mathematical theory, and the mathematics holds together in a very tight and consistent way. It contains in its basic structure both quantum mechanics and the theory of gravity. That's big news.

All of modern physics is governed by that magnificent and thoroughly confusing discipline called quantum mechanics ... It has survived all tests and there is no reason to believe that there is any flaw in it. We all know how to use it and how to apply it to problems; and so we have learned to live with the fact that nobody can understand it.

In science fiction, basic doubts featured prominently in the worlds of Philip K. Dick. I knew Phil for 25 years, and he was always getting onto me, a scientist. He was a great fan of quantum uncertainty, epistemology in science, the lot.

Everything that can happen, does. That's quantum mechanics. But this does not mean everything happens. The rest of physics is about describing what can happen and what can't.

Bells theorem dealt a shattering blow to Einsteins position by showing that the conception of reality as consisting of separate parts, joined by local connections, is incompatible with quantum theory... Bells theorem demonstrates that the universe is fundamentally interconnected, interdependent, and inseparable.

Commitment is the ultimate assertion of human freedom. It releases all the energy you possess and enables you to take quantum leaps in creativity. When you set a one-pointed intention and absolutely refuse to allow obstacles to dissipate the focused quality of your attention, you engage the infinite organizing power of the universe.

When the problem [quantum chromodynamics] is finally solved, it will all be by imagination. Then there will be some big thing about the great way it was done. But it's simple -it will all be by imagination, and persistence.

My work during the 1970s has been mainly concerned with the implications of the unified theory of weak and electromagnetic interactions, with the development of the related theory of strong interactions known as quantum chromodynamics, and with steps toward the unification of all interactions.

Quantum physics is quite interesting. All these tiny particles are there as much as they're not there. That to me is very, very interesting. And how our thoughts change the outcome of an experiment, I think that's all quite spiritual.

It is true that in quantum theory we cannot rely on strict causality. But by repeating the experiments many times, we can finally derive from the observations statistical distributions, and by repeating such series of experiments, we can arrive at objective statements concerning these distributions.

I cannot seriously believe in it [quantum theory] because the theory cannot be reconciled with the idea that physics should represent a reality in time and space, free from spooky actions at a distance [spukhafte Fernwirkungen].

The quantum world is still very mysterious, still seemingly very powerful, and I'm definitely attracted to the mysterious and the unknown and just the vastness of what my imagination puts on it.

After the German occupation of Holland in May 1940, the last two dark years of the war I spent hiding indoors from the Nazis, eating tulip bulbs to fill the stomach and reading Kramers' book "Quantum Theorie des Elektrons und der Strahlung" by the light of a storm lamp.

Typically in science, individual scientists make up their minds about scientific fact or theory one at a time. We don't take votes. We just don't vote on quantum mechanics, the theory of relativity, why the sky is blue, or anything else.

During my years at the synchrotron laboratory, I had become interested in the theory of quantum electrodynamics and had decided that what I would most like to do after completing my dissertation work was to probe the short-distance behavior of the electromagnetic interaction.

If a little kid ever asks you just why the sky is blue, you look him or her right in the eye and say, 'It's because of quantum effects involving Rayleigh scattering combined with a lack of violet photon receptors in our retinae.'

The movement of a single atom from one known position to another known position changes an experience from nothing to overwhelming. This means that mind and matter at the quantum mechanical level are all spun together.

No one intuitively understands quantum mechanics because all of our experience involves a world of classical phenomena where, for example, a baseball thrown from pitcher to catcher seems to take just one path, the one described by Newton's laws of motion. Yet at a microscopic level, the universe behaves quite differently.

The revolution which began with the creation of quantum theory and relativity theory can only be finished with their unification into a single theory that can give us a single, comprehensive picture of nature.

If I realize that actually there's quantum mechanics happening around us all the time in some macroscopic, interconnected way, then that doesn't change my perception of it, that doesn't change my interaction with it; it just changes how I view my interaction.

Everything, however complicated - breaking waves, migrating birds, and tropical forests - is made of atoms and obeys the equations of quantum physics. But even if those equations could be solved, they wouldn't offer the enlightenment that scientists seek. Each science has its own autonomous concepts and laws.

There's a branch of math called the foundations of math. It's kind of like quantum mechanics. It's about how this very complex theory of math can be built up from very basic parts.

According to the standard model billions of years ago some little quantum fluctuation, perhaps a slightly lower density of matter, maybe right where we're sitting right now, caused our galaxy to start collapsing around here.

For the record: Quantum mechanics does not deny the existence of objective reality. Nor does it imply that mere thoughts can change external events. Effects still require causes, so if you want to change the universe, you need to act on it.

Most people don't realize that when we were producing 'Black Panther,' 'Quantum & Woody,' and 'Steel,' fairly few people were reading those titles. We were constantly threatened with cancellation.

The bedrock nature of space and time and the unification of cosmos and quantum are surely among science's great 'open frontiers.' These are parts of the intellectual map where we're still groping for the truth - where, in the fashion of ancient cartographers, we must still inscribe 'here be dragons.'

To understand that, we have to begin to imagine what a universe would be like if there wasn't anything in it called Mind. If that was the case, according to quantum physics now, then every possibility would also come into existence as every other possibility.

I like relativity and quantum theories because I don't understand them and they make me feel as if space shifted about like a swan that can't settle, refusing to sit still and be measured; and as if the atom were an impulsive thing always changing its mind.

It's starting to catch hold, and in large measure it's because we're starting to understand that much of what we have talked about in ancient mythology and mystical experience and so forth can pretty well be modeled within the world of quantum physics. That's a 20th century phenomenon also.

The uncertainty principle refers to the degree of indeterminateness in the possible present knowledge of the simultaneous values of various quantities with which the quantum theory deals; it does not restrict, for example, the exactness of a position measurement alone or a velocity measurement alone.

Music is everything; without it, we [people] are nothing. We're just living vibrations of molecular tinglings, and without music we'd explode into nothing and go down a quantum hole.

What one thing could you do in your personal and professional life that, if you did on a regular basis, would make a tremendous positive difference in your life? Quadrant II activities have that kind of impact. Our effectiveness takes quantum leaps when we do them.

The more you study quantum mechanics, the more crazy and incomprehensible it becomes. You truly do need a Ph.D. in very high level math and science to understand it at a high, high level.

Unfortunately, unless we're focused on building up our courage, which gives us our self-confidence and all that we need to make quantum change in our lives, the voice of fear will always take the lead inside our minds.

I became an atheist because, as a graduate student studying quantum physics, life seemed to be reducible to second-order differential equations. Mathematics, chemistry and physics had it all. And I didn't see any need to go beyond that.

?By 2100, our destiny is to become like the gods we once worshipped and feared. But our tools will not be magic wands and potions but the science of computers, nanotechnology, artificial intelligence, biotechnology, and most of all, the quantum theory.

According to inflation, the more than 100 billion galaxies, sparkling throughout space like heavenly diamonds, are nothing but quantum mechanics writ large across the sky. To me, this realization is one of the greatest wonders of the modern scientific age.

In many ways, string theory attempts to go beyond Einstein's dream... an all-encompassing description of nature that works at large distances where gravity becomes important as well as small distances where quantum mechanics is important.

I felt 'Quantum of Solace' completely lost its way. We were lucky on 'Casino Royale:' it was the origin story of Bond. Bond had the one and only affair that meant anything to him, and affected him throughout the rest of the series.

Before the discovery of quantum mechanics, the framework of physics was this: If you tell me how things are now, I can then use the laws of physics to calculate, and hence predict, how things will be later.

In mysteries what we know, and our realization of what we do not know, proceed together; the larger the island of knowledge, the longer the shoreline of wonder. It is like the quantum world, where the more we understand its formalism, the stranger that world becomes.

The quantum hologram is a mechanism to explain this concept of the ancients of the Akashic Records. It also explains Rupert Sheldrake's work among animals [his theory of morphic fields and morphic resonance, leading to a vision of a living, developing universe with its own inherent memory].

While classical mechanics correctly predicts the behavior of large objects such as tennis balls, to predict the behavior of small objects such as electrons, we must use quantum mechanics.

Practically and commercially speaking, a dollar is not necessarily a specific thing, made of silver, or gold, or any other single metal, or substance. It is only such a quantum of market value as exists in a given piece of silver or gold.

We all hate on ourselves way too much, and there are so many people who think they have to look like those women on TV. That's so unreasonable. Everybody is supposed to be a different size. And if I can just be confident in myself, then I'll look better. It's quantum physics!

A further aspect I should like to discuss is what I call the practice of infinite escape clauses. I believe we developed this practice to avoid facing the conclusion that the probability of self-reproducing state is zero. This is what we must conclude from classical quantum mechanical principles as Wigner demonstrated

Theoretical physicists live in a classical world, looking out into a quantum-mechanical world. The latter we describe only subjectively, in terms of procedures and results in our classical domain.

The very nature of the quantum theory ... forces us to regard the space-time coordination and the claim of causality, the union of which characterizes the classical theories, as complementary but exclusive features of the description, symbolizing the idealization of observation and description, respectively.

The treatment of the indeterminacy principle as absolute and final can then be criticized as constituting an arbitrary restriction on scientific theories, since it does not follow from the quantum theory as such, but rather from the assumption of the unlimited validity of certain of its features, an assumption that can in no way ever be subjected to experimental proof.

Quantum mechanics is certainly imposing. But an inner voice tells me that this is not yet the real thing. The theory says a lot, but does not bring us any closer to the secrets of the "Old One." I, at any rate, am convinced that He is not playing at dice.

Indeed, our everyday world presents intellectual challenges just as daunting as those of the cosmos and the quantum, and that is where 99 per cent of scientists focus their efforts. Even the smallest insect, with its intricate structure, is far more complex than either an atom or a star.