Not exact matches
Atoms and sub-atomic particles are much smaller
than humans,
so why would God be interested in, or care about them.
The revolutionary developments already erupting in his own day still confront us with the relativistic and quantum mechanical portrayals of whatever «
atoms» are deemed ultimate, and even more
so than in the life sciences this development within the physical sciences spawned a continuing spiral of philosophic debate as to their proper interpretation.
Therefore, our bodies are really more space
than matter and IF we knew how to do it, we could arrange the
atoms in oor bodies to slip between the
atoms in a wall
so that we could pass through it with room to spare!
Here's the problem: To make a BEC, physicists use magnets and lasers to trap and chill
atoms so that their speeds drop from thousands of meters per second to centimeters per second — slower
than a walk.
The second is currently defined by caesium atomic clocks, but optical clocks promise higher precision because their
atoms oscillate at the frequencies of light rather
than in the microwave band,
so they can slice time into smaller intervals.
Although the
atoms of an unfolded protein are less densely packed
than a folded one, the complex shape retains some voids and cavities,
so a 30 percent decrease in volume is unrealistic.
There are more possible moves in Go
than there are
atoms in the universe,
so AlphaGo couldn't work out its strategy simply by «solving» the game.
So far his team has come up empty - handed, which puts limits on how «loud» dark sound can be: the team suggest that no more
than 5 per cent of dark matter should build
atoms (arxiv.org/abs/1310.3278).
The scientists prepared the molecules
so that the temperature — judged by the probability of an
atom's nucleus being found in a higher energy state — was greater for the hydrogen nucleus
than for the carbon.
In the past century or
so, we have concluded that matter is built from
atoms, that
atoms are constructed from a small set of elementary particles, and that those particles are fluctuations in a melee of quantum fields pervading empty space (see «Why is there something rather
than nothing «-RRB-.
Our technique, should we succeed in extending it to Weitz and Hänsch's complete scheme, would be sort of a catch - all; progress
so far in cooling molecules tends to use the details of specific molecules, rather
than being something general; that's why this is exciting, even though our actual experiment just uses
atoms.»
The technique consists of breaking down the
atoms or molecules in a sample
so that they become charged with more or fewer electrons
than the original (ionization) and then separating them by mass / charge ratio in order to identify and quantify them.
Each
atom's state can not be known with certainty until it is measured with the laser pulse — that is, it is probabilistic rather
than deterministic —
so the measurements can be used to generate an intrinsically random string of binary digits.
«Even
so, the probability that this nonlinear interaction occurs on any given
atom is less
than winning the lottery.»
The result was a more
than tenfold improvement in clock performance because the
atoms interacted
so strongly that, against all odds, they stopped hitting each other.
«Using a new type of electron detector — basically a super-fast, super-sensitive camera — we were able to measure the stretching of the materials from where it joined at the atomic scale to how the whole sheet fitted together, and do
so with a precision better
than one third of one percent of the distance between
atoms.»
After refining his method
so that he could lift
atoms off a surface rather
than dragging them with the STM probe tip, he wrote in large bold letters, «I'm really having fun!!»
Ordinarily, photons are thousands of times larger
than atoms,
so they do not have very good conversations.
Instead of water, liquid sodium is typically used as a coolant because the sodium
atoms are
so much larger and heavier
than neutrons that when they collide the neutrons simply ricochet off the sodium
atom - much a like a small bullet ricocheting off a thick plate metal.
8 % of which is saturated fat — this kind of fat has no double bonds between the carbon
atoms, making it harder to break the molecule (this means it is harder to «burn off» saturated fat —
so you will need to workout harder or longer
than you would to «burn off» the same amount of unsaturated fat).
With its largely open «body», the
Atom is even less practical in a real - world sense
than the Seven,
so really is just a weekend toy.
But after Brown bought the company he wanted the first car built on his watch to be a roadster rather
than a sedan
so the
Atom was destined to stay a unique, one - off.
It's a 1.83 GHz quad - core Intel
Atom Z3735D rather
than something made by Qualcomm or Nvidia, but then as this is a Wi - Fi only device -
so no SIM packages on Tesco Mobile as we thought may have been a possibility - it doesn't need the mobile communication nous of the former chip manufacturer or the gaming graphics abilities of the latter.
For starters, this is what a googol looks like: 100,000,000,000,000,000,000,000,000, 000,000,000,000,000,000,000,000,000, 000,000,000,000,000,000,000,000,000, 000,000,000,000,000,000,000 10 followed by a hundred zeros is certainly a big number -
so big that some estimate that a googol is greater
than the number of hydrogen
atoms in the observable universe.
If
so, then you either disagree with the theory of combustion, that is, one
atom of carbon burned in an excess of oxygen produces one molecule of CO2, or you believe there is some sort of vast conspirousy to make people think that much more fossil fuel has been burned
than actually has been.
why
so many model launching by lava when already lava iris
atom 2x available with better specs
than.