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quantum English
Meaning quantum meaning
What does quantum mean?
quantum
Synonyms quantum synonyms
What other words have the same or similar meaning as quantum?
quantum English » English
Examples quantum examples
How do I use quantum in a sentence?
Simple sentences
History is like Quantum Physics, the observer affects the event observed. Is the Kennedy assasination a particle or a wave?
Quantum physics is too difficult for a mere mortal to understand.
Anyone who is not shocked by quantum theory has not understood it.
The book was about quantum physics.
Quantum physics thus reveals a basic oneness of the universe.
According to Dr. Kattnig, pigeons use quantum mechanics to find their way home.
What is quantum cryptography?
Movie subtitles
Quantum transducer!
I'll bet any quantum mechanic in the service..would give his life for a chance to fool around with this.
Now, it appears to me it is apparent in a mathematical plan that the entire quantum theory of space and time relativity must have been equated with the parellelian role of definitive numerical dialectic algebraic and must be further annotated. exit mr.
I read that with a quantum increase of seven.
I've got a quantum reading of 35-er.
Open quantum latches!
We've entered the quantum realm.
Quantum elevators only stop at certain floors.
And makes quantum leaps from orbit to orbit.
And I'm not going to listen to any more of your cabalistic, quantum, friggin', dumb, limbo mumbo jumbo!
I'm asking you to make a small quantum jump with me to accept one deviant concept that our other states of consciousness are as real as our waking state and that reality can be externalized!
A quantum physics professor of mine at Harvey Mudd. flunked me.
I'm about to make a quantum leap in diaper theory.
Professor Birack, in relativity. geometry breaks down on the cosmic scale, and in quantum physics. logic breaks down on the sub-microscopic scale.
Rosenfeld was a Belgium professor of theoretical physics, a real master of quantum mechanics, etc.
I'll bet any quantum mechanic in the service would give his life for a chance to fool around with this.
The first man to strike fire was more talented than the discoverer of quantum mechanics.
Then report them. To whom, a group of businessmen who can't tell one quantum jump from another?
Patient prognosis includes a quantum permutation of the effect of all elements.
I've got a quantum reading of 35-er. 3-5-er.
And I'm not going to listen to any more of your cabalistic, quantum, frigging, dumb, limbo mumbo jumbo!
Quantum physics.
This is the Quantum Vortex.
An age of technology, of quantum leaps in pure and applied research.
High-energy physics, quantum mechanics.
How would you like to make a quantum jump?
Your next task will be to dismantle the quantum force field around Gallifrey.
The spectra show not only that the same chemical elements exist throughout space but also that the same laws of quantum mechanics govern atoms everywhere.
You seem to have mislaid the quantum accelerator.
Doctor, you haven't got the quantum accelerator back from the Master.
The quantum accelerator.
I mean, it's like across that gray quantum divide is this new consciousness.
Looks like we ran into a quantum filament.
News and current affairs
First, their monitoring of markets requires a quantum leap in sophistication and speed.
A currency board is no panacea but it is a powerful tool that can provide the new Fox government with a chance to make a quantum improvement in Mexico's economic outlook.
Soon after, physics reached new heights as it developed the two revolutionary pillars of 20th century physics: Quantum Mechanics and General Relativity, another of Einstein's pivotal contributions to modern science.
This effort is specially important for cosmology where peaceful coexistence between relativity, which is the theory of gravity, and quantum theory is needed to understand the universe's beginning.
Unification of relativity and quantum theory is therefore necessary in order for us to understand the earliest moments of creation, when other particles and forces came into being.
Many thought that he was moving too far, too fast; that he was expecting too much from Malays asked to make the cultural quantum leap from village to boardroom in a generation.
Not until committee strongman C. W. Oseen died in 1944 could the theoretical physicist Wolfgang Pauli - one of the giants of quantum mechanics - receive a prize.
Quantum theory - the branch of physics that deals with elementary particles and the microscopic properties of matter - has produced some of our deepest insights into nature, and describes some startlingly counter-intuitive phenomena.
No one disputes that quantum phenomena, if they could be harnessed, would revolutionize information processing, enabling ways of computing that no existing computer, even in principle, would be capable of duplicating.
What would happen inside a quantum computer when it performs an algorithmic search?
Many explain away quantum phenomena with weasel words, or worse, they simply eschew explanation altogether.
True, quantum phenomena cannot be observed directly.
To us, no mystery exists in quantum computation, only wonder.
Quantum computing, according to this view, is possible because a quantum computer performs vast numbers of separate computations in different universes and then shares the results through quantum interference.
So counter-intuitive are quantum theory's predictions that, under the leadership of one of its pioneers, Neils Bohr, a myth grew that there is no underlying reality that explains them.
Anti-realism remains popular and appears in various guises in textbooks and popular accounts of quantum theory.
Fortunately, a minority of physicists, myself included, likewise side unequivocally with realism, by adopting Hugh Everett's multiple-universes interpretation of quantum theory.
The rules of quantum theory, on which the Standard Model is built, are at root probabilistic.
To cure the point-particle pathologies, physicists invented modern field theories, with impressive names such as quantum electrodynamics.
The greatest hope is to be found in the ongoing information, Bio-, Nano-, Energetics, and Quantum technology revolutions.
But, despite the similarities that Einstein's theory has with other theories in physics, it stands apart by its refusal to fit together with quantum mechanics, the theory that explains the dominant behavior of matter at the atomic and subatomic scale.
This mismatch between our understanding of gravity and the quantum theories of matter poses a huge conundrum for theoretical physicists, because it leads to mathematical contradictions.
Clearly, there is something about the combination of quantum theory and gravity that remains unknown, and our understanding of space, time, and matter hinges on unraveling this connection.
In the atomic and subatomic world, gravity is irrelevant compared to what else is going on, all of which can be described by quantum theories.
Gravity's weakness makes it very difficult to measure its quantum effects; as a result, we have no experimental data to guide theoretical physicists in the development of the missing theory.
That is why, over the last decade, physicists have begun to look for indirect evidence of quantum gravity.
Rather than seeking to detect a quantum of the gravitational field, researchers are looking for other effects that would imply that gravity is quantized.
For example, some scientists are searching for evidence of quantum fluctuations of space-time that could blur images of distant stars or lead to systematic distortions.
Others are looking for violations of certain symmetries that could enable normally forbidden particle decays, unexplained noise in gravitational wave detectors, or inexplicable loss of quantum coherence.
And, though researchers may not have found results supporting any one theory, they have advanced the cause of science by better defining the observational criteria any quantum theory of gravity will have to take into account.
That quest has blossomed into astonishingly fruitful research areas like cosmology, numerical general relativity, and quantum gravity.
Quantum engineering teams are already springing up in academic and research institutes all around the world.
Either way, the quantum universe will continue to surprise us.