Sucralose, for instance, fits more snugly in the receptor than sucrose, partly because its chlorine atoms carry a stronger charge
than the oxygen atoms they replaced.
Not exact matches
If humans were not designed by a higher authority, how can each individual's DNA be uniquely different among the human species, especially different
than the other animals; how can the life sustaining elements be constantly available and exist in exact formulations: O, H, C etc. water is always 2
atoms of Hydrogen and one
atom of
Oxygen; sugar, fats, grains, and any bio-chemical products can be broken down to their simplest forms of elements, but can be re-constructed with specific (not by chance) formula.
A value for Hoyle state 2 % higher
than the measured value would prevent the formation of carbon.5 A value 2 % lower
than the measured value would produce lots of carbon, but no
oxygen.5 Both are essential
atoms for life.
Krissansen - Totton explains in more detail: «Having methane and carbon dioxide together is unusual, because carbon dioxide is carbon's most oxidized state, and methane (composed of a carbon
atom linked to four hydrogen
atoms rather
than any
oxygen at all) is its least,» he says.
The researchers also found that at high pressures,
oxygen atoms are much more compressible
than silicon
atoms.
This material, in which carbon substitutes for some of the lattice
oxygen atoms, absorbs light at wavelengths below 535 nanometers and has a lower band - gap energy
than rutile (2.32 versus 3.00 electron volts).
Less well known are other higher titanium oxides — those with a higher number of titanium and
oxygen atoms than TiO — that are now the subject of intensifying research due to their potential use in next - generation electronic devices.
These tiny clusters would add
oxygen atoms more efficiently
than larger clusters.
Highly energetic gamma - and X-rays, with wavelengths as small as or smaller
than atoms, are absorbed by
oxygen and nitrogen in the upper atmosphere.
Molecules with three or more
atoms, like CO2 and other greenhouse gases, do this much better
than molecules with just two, like
oxygen (O2) and nitrogen (N2).
While elements like
oxygen, silicon, magnesium, and iron are much heavier
atoms than hydrogen or helium, they are just not abundant enough to make a significant contribution on their own.
X-ray technique coupled with theory reveal how
oxygen atoms near the surface of Cu had a dramatic effect on the reaction
than earlier theories could account for.
He found that gases and vapors whose molecules had three or more
atoms, such as water vapor and CO2, absorbed much more of the thermal radiation passing through the tube
than did two -
atom molecules such as
oxygen and nitrogen.
But many molecules have more
than two
atoms — carbon dioxide, for instance, is triatomic, consisting of a carbon molecule linked to two
oxygen molecules — one on each arm, as it were.
The mass of CO2emitted, some 33 billion tonnes in 2011, is more
than twice the mass of all of the fossil fuel produced in that year, a little under 15 billion tonnes (we have to sequester two
atoms of
oxygen with every
atom of carbon).
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.
However, because there are a lot more
oxygen atoms in an
oxygen multimer
than in a regular diatomic
oxygen molecule, the ultraviolet light doesn't have to split the
oxygen into individual
atoms.