On PCMark 7, the Pro's score of 4,721 bested the Acer W700 (4,439; 1.7 - GHz Core i5 - 3317U CPU, 4 GB of RAM and a 128 GB Toshiba SSD), as
well as Atom - powered Windows 8 tablets such as the Envy x2 (1,428; 1.8 - GHz Intel Atom Z2760 CPU, 2 GB of RAM and 64 GB Flash).
The Nomad has been tested across multiple types of terrain, including race circuits and WRC stages, so there is absolutely no doubt it will perform as
well as the Atom does.
Eigler demonstrated the ability to manipulate molecules as
well as atoms.
Not exact matches
You may
as well ask, «Why do you simply choose to give up all thought and simply conclude that evolution /
atoms / germ theory / etc.
You are correct in claiming that we could come back
as anything...
as you decompose your
atoms will be absorbed into anything and you may
well be a cow horse, or part of a rain drop... in fact you may have been part of those even before you were born... your
atoms are
as old
as the universe..
But,
as Hartshorne comments,» [a] stone is
better interpreted
as a colony of swirls of
atoms (crystals) than are its
atoms interpretable
as servants or organs of the stone.
everything is made up of
atoms (don't believe me do some research) its the different variables of heat and light and things like that that cause different reactions to make different things and these things when they interact can create something completely different and you and slowly the process of mitosis or miosis starts to work and form stuff hell i learnt that in high school and it was a catholic one at that a millions of years ago i bet the universe was completely different and had things in it that our minds cant even imagine that have since changed over time from action and reaction to what we have today and in another million years who knows with all the different gases we pump into the air and the weather getting more intense on both ends of the scale life
as we know it will be different the human race will have to evolve to survive and will probibly form into a slightly different species hell maybe
well evolve into 2 different species like in the movie time machine
This organic whole that began from an initial high bang and eventuated into the present universe is distinguished by a form of unity and diversity radical beyond all imagining: infinite differences, and diversity that is marked not by isolation but by shared
atoms over millennia
as well as minute - by - minute exchanges of oxygen and carbon dioxide between plants and animal.
They are working the problem backwards
as well as they can, and have come up with all of the mathematics required for the protons, electrons, etc and the formation of
atoms and so forth.
If belief in the
atom was ever seen
as «irrational» then the person who was eventually proven right must have had a
better sense of the
atom's qualities and function..
there's really no room for the concept of an independent entity possessed of «will» in a worldview shaped by cause and effect; the only place for «will» to retreat to is the zone of true randomness, of complete uncertainty, which means that truly free will
as such must be completely inscrutible [sic]... Statistical laws govern the decay of a block of uranium, but whether or not this
atom of uranium chooses to fission in this instant is a completely unpredictable event — fundamentally unpredictable, something which simply can not be known — which is equally
good evidence for the proposition that it's God's (or the
atom's) will whether it splits or remains whole,
as for the proposition that it's random chance.
We may think of molecules
as societies of
atoms, and molecules have been discovered to have preserved their structures intact for a
good billion years.
Schilling points out that in a sense the
atom was «invented»
as well as «discovered.»
Whoever might consider the magazine
as naïve about science and progress would do
well to turn to the editorial «Man and the
Atom» (August 22, 1945).
Within black holes there may
well be a gravimetric consistency whereby atomic particles release energy via electron dispersal ratios giving rise to
atoms flying apart at near light speeds from said release of electrons energy dispersal rates and not via «anti-particles»
as Steve Hawking suggests.
Mutations are indeed not, so far
as we know, selected by any overall purpose favoring evolution; but this is compatible with there being short - run and very naive purposes, desires, or feelings in the
atoms and molecules constituting the genes,
as well as in every cell and every metazoan with a nervous system.
And he does say that
atoms and molecules are «organisms» of a higher type than electrons (ibid) Furthermore, he refers to molecules
as enduring objects, and he speaks of molecular
as well as of electronic and protonic actual occasions (PR 114, 123, 124, 139, 141).
It had three alternating carbon double bonds, called conjugations, that he had seen in some potent steroids,
as well as an additional carbon
atom that he recognized would give it extra strength.
But that could turn out to be a blessing: Linking C36 to other
atoms could yield compounds that are more stable than C36 alone,
as well as impart useful optical and electronic properties.
Ordinary matter, which makes up the
atoms of familiar objects
as well as stars and the visible portions of galaxies, accounts for just 4 percent of the cosmos.
The fiery engine inside those stars,
as well as the violent explosion of the very massive ones that died, fused
atoms together to create heavier
atoms.
These observations were then used
as data for computational predictions of new materials, leading to insights on how to
best combine
atoms to form new, stable structures.
Fashioning individual molecules
atom by
atom could allow researchers to study atomic collisions in the most controlled environment possible,
as well as to observe how molecules behave in isolation.
A chemical bond is the physical phenomenon of chemical substances being held together by attraction of
atoms to each other through sharing,
as well as exchanging, of electrons - or electrostatic forces.
Either way, the new particle could be a tool to unlock a deeper understanding of the fundamental «strong» force that binds quarks together to form protons and neutrons, which in turn form
atoms —
as well as planets, stars, galaxies and people.
In recent years researchers have achieved
better performance with compounds such
as lithium borohydride, in which the metal
atoms form weaker, ionic bonds with groups containing several hydrogen
atoms.
In order to do more advanced simulations of melts, the team would like to be able to expand its simulations to account for a wider range of chemical processes
as well as expand the number of
atoms in a typical run.
The researchers found that the act of sliding causes graphene
atoms to make
better contact with the object sliding along it; this increase in the quality of contact leads to the increase in friction
as sliding proceeds and eventually levels off.
Penrose points out that tiny objects — dust specks,
atoms, electrons — produce space - time warps
as well.
says the researchers can change the interactions between
atoms by changing the arrangement of trapped
atoms,
as well as the frequency or color of the
atom - exciting laser beam.
They found that just a few hundred fs after the initial ionization, the Ne
atom that had absorbed the x-ray,
as well as two neighboring Kr
atoms, were all in an ionized, positively charged state.
With
atoms being so
well characterized, it is possible to use them
as probes — to look for tiny changes in their properties stemming from interactions with other
atoms or the environment.
An electric current can do the trick;
as an electron crosses a domain wall and feels its own magnetic pointing, or spin, flipped from one orientation to the other, it forces an
atom within the nanowire to flip magnetic orientations
as well to compensate.
The sudden recoil of the
atom's nucleus would trigger a shower of electrically charged particles and
atoms as well as light and heat, which can be picked up by a sensor.
Rice materials scientist Rouzbeh Shahsavari and alumnus Navid Sakhavand first built
atom - level computer models of pillared graphene — sheets of graphene connected by covalently bonded carbon nanotubes — to discover their strength and electrical properties
as well as their thermal conductivity.
One of the pictures accompanying the Daily Mail article showed the hexagonal shapes of five carbon rings
as well as the positions of the hydrogen
atoms around these rings.
He realized that if the material is
well - ordered, like a crystal, with its
atoms evenly distributed, the electrons move freely
as waves.
A paper describing the research appears January 4, 2018 in the journal Nature along with a paper from a separate group from Germany that shows that a similar mechanism can be used to make a gas of ultracold
atoms exhibit four - dimensional quantum Hall physics
as well.
The team observed that when
atoms are spaced so that each occupies a trough in the optical lattice, when the ion crystal
as a whole is dragged across the optical lattice, the
atoms first tend to stick in the lattice's troughs, bound there by their preference for the lower electric potential,
as well as by the Coulomb forces that keep the
atoms apart.
The material that can replace silicon for the least cost will ultimately rule the day, but at scales of tens of
atoms, graphene might perform
as well as silicon or
better, Kim says.
But according to quantum theory it can be viewed
as both wave and particle, just
as light can — and at the scale of
atoms it is the particle representation that works
best.
The models showed that thinner carbon nanotubes with a relatively high concentration of nitrogen would perform
best,
as oxygen
atoms readily bond to the carbon
atom nearest the nitrogen.
They are particularly
good at identifying the position of light
atoms such
as hydrogen, oxygen, carbon and nitrogen in samples.
«We found that even at temperatures
as low
as minus 300 degrees F these platinum
atoms were capable of splitting hydrogen molecules into
atoms, indicating that the platinum
atoms would be very
good at activating hydrogen for a chemical reaction,» Sykes said.
Then there's the new kid on the block that some are claiming could do the job just
as well: «dark
atoms».
Indeed, the random arrangement of the
atoms in a disordered medium such
as glass is not observable with visible light: the glass looks completely homogeneous, even under the
best optical microscope.
As it turns out, a group of
atoms essential to the drug molecule's effectiveness, and also toxicity, made for a
good attachment point.
In an age when there were no microscopes to penetrate living cells and no understanding of the nature of
atoms and molecules, the alchemists were not misguided so much
as misinformed, doing their
best to make sense of a world they could not see.
These sharp tips are needed for making contact with metals or semiconductors
as well as for the manipulation and examination of
atoms, molecules and small particles.
This image produced by the Spectroscopic Imaging Scanning Tunneling Microscope reveals the location of every
atom on the surface,
as well as every single atomic defect in the field of view.