Sentences with phrase «routh as the atom»
I guess you got ta love death and war, it can even get a pacifist to imagine something as death incarnate as the atom bomb.
http://religion.blogs.cnn.com/
First, it would be consistent with Whitehead's own methodology, in this way to make God the chief exemplar for the understanding of process everywhere else in the world, Secondly, and more importantly, it might help to correct the unfortunate tendency even among Whiteheadians subconsciously to regard actual entities as atoms, minisubstances which are, so to speak, the building blocks of the world process.
as our atoms separate we become part of anything..
In the early twentieth century, the particles were understood as atoms.
As atoms form from particles, and molecules form from atoms, so crystals and cells form from molecules and organisms form from cells.
Just as substances like chairs and tables can be analyzed into component substances such as atoms; so also events like wars and conversations can be analyzed into the component events that make them up.
He insists that such compounds of lower - level entities as atoms, molecules, and cells must be recognized as having individual existence in their own right, whereas he finds Whitehead attributing to them only social unity.
Instead of thinking of entities such as atoms as bits of matter that relate to other bits of matter, we think of atoms and other entities as occasions of experience themselves.
How are we to imagine feelings as different from ours as an atom is from our bodies?
It is not a building block in the sense in which entities such as atoms and cells are.
Lest he be misunderstood, he says that panpsychism does not for once question the real existence of such entities as atoms or electrons but merely insists that such individuals must «feel» and «will» He does not shrink from the view that electrons «enjoy» their existence and deliberately alter their orbits in order to obtain vivid contrasts and thus avoid being bored.30
It is precisely as an atom of ambiguity that Whitehead's actual occasion is an atom of adventure, the search for new perfections (AI 258).
The novel occasion may not be characterized as an atom of ambiguity as easily as the past occasion.
As the atoms move around in the supercooled state in search for nucleation sites, the temperature continues to drop.
Why aren't people, trees and everything else as wavy and indistinct as the atoms they're made of?
This route is often described as a «military» transition, as the atoms «march» in a concerted way.
As atoms are much larger than electrons, they are much easier to observe.
To most physicists, it is little more than a convenient way of calculating how quantum systems such as atoms should behave.
Quantum computing's promise is rooted in quantum mechanics, the counterintuitive physics that governs tiny entities such as atoms, electrons and molecules.
Because neutrinos are so abundant, they could be the dominant dark matter even if each weighed only a tiny fraction as much as an atom.
They can therefore be employed to observe particles with dimensions of less than 1 nanometer, such as atoms.
It may not seem like a material as thin as an atom could hide any surprises, but a research team led by scientists at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) discovered an unexpected magnetic property in a two - dimensional material.
They were also given more than 4800 descriptors for each molecule, such as the atoms included, their arrangement, and geometry, which constituted a separate set of more than 2 million data points.
As the atoms are «trapped,» the scientists use a camera to create images of the atoms and their locations.
The mathematics of quantum theory says that an atom, for example, can be on the left side of a box and the right side of the box at the very same instant, as long as the atom is undisturbed and unobserved.
Just as an atom with a full outer electron shell is a peculiarly unreactive noble gas, an outer shell with the right number of protons and neutrons makes a nucleus magically stable.
The research team created four variants of the engineered molecule, each of which contained a PBA molecule with a different chemical modification, such as an atom of fluorine and nitrogen.
The resulting bond is relatively weak, creating what Zwierlein calls a «fluffy» molecule that still vibrates quite a bit, as each atom is bonded over a long, tenuous connection.
The latest calculations indicate that neutralinos may be 10 times as plentiful as atoms.
As these atoms move across the surface if they encounter an open graphene edge they tend to get trapped there.
Just as the atoms in familiar crystals are resilient to changes in space, time crystals seem to steadfastly hold their set pulse.
Just as the atoms in a molecule can be arranged in a left - or right - handed manner, the field in a beam of light can circulate like a left - or right - handed corkscrew.
As soon as the atoms «feel» the electromagnetic wave of the light, their electrons start to oscillate.
Rather than processing and storing information as bits in transistors or memories, which limit information to the binary» 1» or» 0», quantum computers would instead use quantum systems, such as atoms, ions, or electrons, as «qubits» to process and store «quantum information» in, which can be in an infinite number of combinations of» 1 and 0».
As the atoms, attracted to the breach, zipped across it at more than four times the speed of sound, they gave rise to a black hole effect.
But a practical quantum computer, Polzik notes, requires the transfer of information between a data stream, such as light, and a stored quantum state, such as the atoms in a hard drive.
Quantum particles such as atoms and molecules have an uncanny ability to appear in two places at once, spin clockwise and anticlockwise at the same time, or instantaneously influence each other when they are half a universe apart.
As the atoms decay, they release high - speed helium nuclei and then become smaller uranium atoms.
If enough force is applied, the ion crystal suddenly slips, as the atoms collectively jump to the next trough.
In 1996, he introduced the concept of using nanoparticles as atoms and synthetic DNA — the blueprint of life — as a chemically programmable bond to make designer materials based upon the ability of the particles to recognize one another through sequences immobilized on their surfaces.
Such a laser might be just as stable as the atoms used in the most advanced clocks.
As the atoms «relax» and their electrons fall back into place, the gas glows at a characteristic wavelength of light — visible, microwave, red, or blue; it all depends on the atom involved.
As the atom is cooled, its momentum decreases, thereby increasing its wavelength.
As the atom scatters photons, its velocity randomly changes.
When working with nano structures such as atoms, which measure only 0.3 nanometers, three electrodes would inevitably cause a short - circuit.
String theory has emerged as the most promising approach to unifying quantum mechanics — the laws governing very, very small things such as atoms, nuclei and quarks — with general relativity, which describes the world on a scale as large as that of stars and galaxies.
As the atom absorbs photons, it will receive a barrage of momentum kicks in the direction that the light beam propagates.
When quantum objects such as atoms are entangled, measuring one has a direct and predictable effect on the other.
«As atom numbers increase, both measurement precision and accuracy increase accordingly,» Ye says.
The functional activity of the brain, for example, is nearly as invisible to us as the atom, and so we employ metaphors.