Not exact matches
And finally, that no blemish may separate him, by so much
as a single
atom of himself, from the essential limpidity, he labours unceasingly to purify his affections and to remove even the very faintest opacities which might
cloud or impede the light.
4s) then photons erupted from this energy
cloud (detectable today
as the microwave background radiation) 5s) photons and other particles form the bodies of the early universe (
atoms, molecules, stars, planets, galaxies) 6s) it rained on the early earth until it was cool enough for oceans to form 7s) the first life form was blue green bacteria.
4) then photons erupted from this energy 4) let there be LIGHT (1 - 4 all the first day)
cloud (detectable today
as the microwave background radiation) 5) photons and other particles form the 5) God next creates the heavens (what we call the sky) above bodies of the early universe (
atoms, (2nd day) molecules, stars, planets, galaxies) 6) it rained on the early earth until it was 6) dry land appears
as the oceans form (3rd day) cool enough for oceans to form 7) the first life form was blue green bacteria.
Clumpiness begot more clumpiness,
as gravity pulled more matter into these dense regions, and
clouds of gas, composed mostly of hydrogen
atoms, began to assemble.
Still other researchers hope to use Bose - Einstein condensates —
clouds of cold
atoms that behave
as a single quantum wave — to reach tight limits.
Chilled
clouds of
atoms can act
as quantum memory, but this requires bulky equipment and trained physicists.
Accordingly, the vast,
cloud - like objects that glow with this light from hydrogen (and other)
atoms are known
as emission nebulae.
Mezey says that conventional techniques for drawing electron
clouds have been restricted to molecules containing around 100
atoms, such
as vitamins and small peptides.
As the
cloud expands, the
atoms and ions within it begin to cool and condense into grains of graphite, aluminum oxide, various metal oxides, and quartz.
Here's the twist: they stopped it in a
cloud of supercold sodium
atoms, known
as a Bose - Einstein condensate (BEC), and then restarted it in a second, distinct BEC
as though the pulse had spookily jumped between the two locations.
In their study, the ICFO team cooled down a
cloud of
atoms to a few micro-degrees Kelvin, applied a magnetic field to produce spin motion
as in MRI, and illuminated the
cloud with a laser to measure the orientation of the atomic spins.
The cosmos
as we know it started to take shape when
atoms and ions paired up to form molecular hydrogen, which expelled heat out of the gas
clouds, allowing them to cool down enough to form the first stars.
By keeping them in a magnetic trap on an
atom chip, this
atom cloud can be used
as a «quantum simulator,» which yields information about a variety of different physical systems and new insights into some of the most fundamental questions of physics.
To measure this frequency, fountain clocks toss small
clouds of slow - moving cesium
atoms a few feet high, much like a pulsed fountain, and measure their oscillations
as they pass up, and then down, through a microwave beam.
Just short of physically shaking the system, the group «created a displacement between the
atoms and the laser beam,» moving the laser beam from side to side
as it probed the
cloud of
atoms.
During the mid-1990s in a University of Colorado physics lab, Wieman enlisted lasers to bring matter
as close to absolute zero
as anyone is likely to get — a temperature so low that
atoms freeze together into quantum - mechanical
clouds predicted by Einstein but never before observed.
On its 12 - billion - year journey, the light had passed through interstellar
clouds of metals such
as iron, nickel and chromium, and the researchers found these
atoms had absorbed some of the photons of quasar light — but not the ones they were expecting.
The 8 -
atom molecule propenal and the 10 -
atom molecule propanal were detected in a large
cloud of gas and dust some 26,000 light - years away in an area known
as Sagittarius B2.
This library of references is dotted with Child of the
Atom merchandise, including an arcade stick, where the Seimitsu clear bubble joystick doubles
as a mushroom -
cloud hovering over a map of Hiroshima, positing Blandy's constructed character
as a fiction amongst other pre-existing narratives.
Fortunately,
as depicted in Figure 2 (orange «thermal down surface» arrow), some of this energy does stay in the atmosphere, where it is sent back toward Earth by
clouds, released by
clouds as they condense to form rain or snow, or absorbed by atmospheric gases composed of three or more
atoms, such
as water vapor (H2O), carbon dioxide (CO2), nitrous oxide (N2O), and methane (CH4).
The models can be viewed in either the traditional Bohr model, which shows an
atom with a central nucleus with electrons in orbit around it, or with the quantum mechanical model, which shows off the
atom as an electron
cloud.