Sentences with phrase «from classical physics»

The three - dimensional nature of the Euclidean volume (from classical physics) has been replaced by the volume of sound and voice.

But the energy invariant came direct from classical physics.

«Building on the well - understood phenomenon from classical physics, we can not only visualize the development of reliable control sequences in quantum technology, but also accelerate them significantly.»

«Using an analogy from classical physics aids us in more efficiently designing and illustrating control elements for phenomena in the quantum world,» reports Stefan Glaser, professor in the Department of Chemistry at the Technical University of Munich (TUM).

With this near field nanoscope they saw that the light ripples on the graphene moved more than 300 times slower than light, and dramatically different from what is expected from classical physics laws.

«I find it most intriguing because usually theoretical frameworks move from classical physics to quantum physics.

So the biological terms to do with growth and differentiation, for example, would eventually be replaced by terms from classical physics.

There will usually be enough overlap between the assumptions of the two parties that a common core of observations - statements can be accepted by both — even, I would argue, in a change as far - reaching as that from classical physics to relativity.

Classical physics — the kind we know about courtesy of Galileo and Newton — is comparatively easy to understand because we can clearly see it working all around us: the apple falls from the tree; the earth orbits the sun; the thrown baseball follows an arc that we can predict with an equation.

In classical physics from the spot P we infer the position of atom A. From the spot P, the track PP1, and from knowledge of how the lens works, we could also know the momentum of the partifrom the spot P we infer the position of atom A. From the spot P, the track PP1, and from knowledge of how the lens works, we could also know the momentum of the partiFrom the spot P, the track PP1, and from knowledge of how the lens works, we could also know the momentum of the partifrom knowledge of how the lens works, we could also know the momentum of the particle.

The «assumption of simple location,» upon which classical physics was based, abstracts from an aspect of physical reality that must now be considered fundamental and not just accidental — time.

He considers five different concepts from the standard world view of classical physics to a view which closely resembles the cosmology put forth in Process and Reality.

Classical physics appears to provide no way in which an explanation can be reached because it requires a «collection» of particles which constrains individual particles in a manner not deducible from their individual behavior.

Historians of philosophy can easily demonstrate how this Kantian distinction of an unavailable noumenal world from a vivid, but frothy, phenomenal one, is erected upon the distinction in classical physics between primary and secondary qualities.

While modern physics has taken us deeper into the eventful, relational spatio - temporal web of nature than did classical physics, it too is far from giving us a fundamental cosmological description.

Along with dualistic mythology several developments in scientific thought since the seventeenth century have contributed to the exorcism of mind from nature: first, there is the cosmography of classical (Newtonian) physics picturing our world as composed of inanimate, unconscious bits of «matter» needing only the brute laws of inertia to explain their action; second, the Darwinian theory of evolution with its emphasis on chance, waste and the apparent «impersonality» of natural selection; third, the laws of thermodynamics (and particularly the second law) with the allied cosmological interpretation that our universe is running out of energy available to sustain life, evolution and human consciousness; fourth, the geological and astronomical disclosure of enormous tracts of apparently lifeless space and matter in the universe; fifth, the recent suggestions that life may be reducible to an inanimate chemical basis; and, finally, perhaps most shocking of all, the suspicion that mind may be explained exhaustively in terms of mindless brain chemistry.

I interpret the Enlightenment as arising from the Biblical and classical traditions under the impact of the great success of the natural sciences, especially physics.

For those not involved in the field, this world may seem trifling, but recently, researchers from the Okinawa Institute of Science and Technology Graduate University (OIST) have theoretically described two quantum states that are extraordinary in both the physics that define them and their visual appeal: a complex quantum system that simulates classical physics and a spellbinding necklace - like state.

I was always fascinated by physics, especially modern physics as it moved away from the mechanistic world of classical physics into the quantum world, and I found mathematics, especially pure mathematics, a very demanding and challenging subject that requires considerable powers of abstract thought and reasoning.

Taylor says it will be interesting to see how the quantum - mechanical behavior of tiny heat engines differs from the «classical» physics that governs familiar engines.

This area is still a long way from being a coherent unification of quantum and classical physics.

This year's Nobel Laureates in chemistry took the best from both worlds and devised methods that use both classical and quantum physics.

Even when all matter and heat radiation have been removed from a region of space, the vacuum of classical physics remains filled with a distinctive pattern of electromagnetic fields

Chaos is usually thought to be a large - scale phenomenon, associated with classical physics and absent from the microscopic quantum realm.

But many human experiences, Hameroff says, from dreams to subconscious emotions to fuzzy memory, seem closer to the Alice in Wonderland rules governing the quantum world than to the cut - and - dried reality that classical physics suggests.

Magnetism at the atomic level is driven by quantum mechanics — a fact that has shaken up classical physics calculations and called for increasingly complex, first - principle calculations, or calculations working forward from fundamental physics equations rather than relying on assumptions that reduce computational workload.

I have a diverse professional background in television broadcasting and other media, in arts and classical music, and in administrative positions in fields ranging from ballet to personal finance to particle physics.

Boundlessly curious, Durham takes on subject matter ranging from specific historical events or figures — such as Malinche and Cortés — to classical architecture, religious martyrdom, quantum physics, and literary sources from Shakespeare to José Saramago.

Classical physics says that fusion can only happen with light elements and that elements heavier than iron can't fuse and come from supernovae.

When classical physics predicted a certain spectrum from a black body, there was no guess work, the spectrum didn't match predictions.

If I may use an analogy from your expertise, it's as if, in an engineering issue governed by classical physics — say the construction of a bridge between Vancouver and Victoria — you claimed, during a lecture on eng» g principles, that it could be readily and cheaply done because of some principle that you've recently discovered, through your own investigations, which happens to be contrary to one of Newton's law's.