If you consider the chart of atmospheric absorbance, seen in article at http://www.climateimc.org/?q=node/348 and http://www.climateimc.org/?q=node/312, it will be realised that the absorbance of energy by atmospheric water, and the dipole
behavior of water molecules, results in that energy absorbed by atmospheric water being «converted» into intrinsic kinetic energy OF the h2O molecular unit.
A long - suspected secret
behavior of water molecules in ice is seen for the first time using a new technique that could help develop energy alternatives.
For example, how does
the behavior of water molecules and sulfur oxide impact the creation of acid rain?
Not exact matches
Water's behavior was tested with three different approaches: ultrafast optical measurements, which revealed the arrangement of molecules on the nanometric scale; a computer simulation on the atomic scale; and measurement of the water's surface structure and tension, which was done at the macroscopic l
Water's
behavior was tested with three different approaches: ultrafast optical measurements, which revealed the arrangement
of molecules on the nanometric scale; a computer simulation on the atomic scale; and measurement
of the
water's surface structure and tension, which was done at the macroscopic l
water's surface structure and tension, which was done at the macroscopic level.
This
behavior reveals that different chemistry occurs when a
water molecule is added to protactinium versus the heavier actinide dioxide cations
of uranium, neptunium, and plutonium.
Results: While the bouncing and jostling
behavior of collections
of water molecules has been understood for some time now, scientists have just established that ammonia, thought to behave differently, has the same characteristics with
water in the bonding
of adjacent
molecules.
One example where modeling the non-classical
behavior of water vapor
molecules is importan is the ice nucleation on supercooled
water droplets.