I'm guessing that the dewpoint minimum, when the dewpoints at both attic locations are essentially equal to the dewpoint in the house air (meaning the density of
water molecules in the air is the same for all locations) occurs sometime in the morning (and also evidence that the loggers are reading correctly).
Sometime during the morning the number of
water molecules in the air at both locations in the attic rises at a dramatic rate.
Some of
the water molecules in your tank of hot water are colder than ice and some of
the water molecules in the ice are more than boiling hot.
The instrument itself is a sensitive microwave receiver that detects the microwave emissions of the vapor and liquid
water molecules in the atmosphere at two frequencies: 23.8 and 31.4 GHz.
The rate at which
water molecules in the skin layer escape to the atmosphere is determined by their average kinetic energy, ie their temperature.
So during a high pressure, distant objects (mountains etc) appear more distant, with less visible definition to the details, and appear closer with greater visible detail pre a change in the weather (its very noticeable)... Is this the result of the SW light being scattered / or absorbed by the greater density o
water molecules in the atmosphere during a high pressure system?
After accounting for the escaping photons, I like to picture GHG molecules at particular locations in the atmosphere exchanging photons with
water molecules in the skin of the ocean.
This energy will be delivered, after some time, to air when
the water molecules in the gas phase condense into droplets.
Water molecules in a liquid have a temperature (average kinetic energy) and a Boltzmann distribution of energies.
Water molecules in their various random chaotic forms are a net negative feedback element in cases such as increased solar radiation which can drive more WV into the atmosphere.
That is, if there were a thousand
water molecules in the atmosphere for every CO2 molecule, and the climate sensitivities for each were the same, you would have to add a thousand water molecules to achieve the same impact on temperature as adding one CO2 molecule.
CO2 molecules outnumber
water molecules in the upper atmosphere, where water vapor is limited by the low saturation vapor pressure, and this is where radiation to space matters, so CO2 plays a big role in how much energy is radiated to space.
This is an ice - like solid that consists of methane surrounded by
water molecules in a lattice structure.
In a general sense, it doesn't really matter if
the water molecules in the air are the same from one day to the next.
Doug Cotton, doesn't it strike you as odd that the simple physical model that Geoff Wood presents, and that your and fellow members of Principia Scientific International (PSI) defend so vociferously, applies with equal force to (1)
the water molecules in the 10,000 - meter gravitational column of the oceanic Challenger Deep, and (1) the air molecules in the 100,000 - meter gravitational column of the atmosphere over the Challenger Deep.
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.
At the riverside, countless
water molecules in motion and the din of the surrounding city.
Water is attracted to the blood protein so
the water molecules in the blood follow the blood protein and surround the cells to the interstitial space preventing oxygen from getting to the cells.
(The mechanism for this has to do with how water is absorbed in the gut - both sodium and several amino acids are used as exchanges for
water molecules in the cells lining the GI tract, and without amino acids in the gut it is difficult to hydrate properly... leading to sugars remaining in the gut and not being absorbed either).
A large block of salt, like a pink Himalayan salt rock crystal, works by attracting
the water molecules in your room.
The other reason is the processing of
water molecules in your body as they pass through your digestive system that delivers it to the liver, from where it goes into your blood stream that transfers it to the cells and to your kidneys before it is finally excreted.
Water may be more common than expected at extreme depths approaching 640 kilometres and possibly beyond — within Earth's lower mantle, says a study that explored microscopic pockets of a trapped form of crystallised
water molecules in a sampling of diamonds from around the world.
No longer free to jiggle around and transfer heat via this large scale motion,
water molecules in the layer are forced together and heat is only able to travel through the skin layer by way of conduction.
New observations with the National Science Foundation's Very Long Baseline Array radio telescope have deepened the mystery surrounding
water molecules in a galaxy 65 million light - years away.
In 100 characters:
Water molecules in the right spot can lead to carbon sequestering mineral formation in minutes.
The team interpreted this to mean that
water molecules in the jet from Source I are emitting the radio maser.
The research team showed that when they do break, it is because surface forces align
water molecules in a specific way, long before they hit the surface and dissociate.
Some of the electronic charge on the chloride ion (Cl --RRB- ends up on
the water molecules in the first solvation shells around the chloride and sodium ions, with the waters around sodium being the most negative — the waters effectively act as an electronic sink.
The five helix bundle protein known as λ * 6 - 85 is shown surrounded by 1000
water molecules in the dynamical hydration shell.
That was the first time anyone was able to see
water molecules in an EM structure.»
Water molecules in the xylem, I innocently explained, are linked by bonds that form among their positively and negatively charged poles.
This aurora is driven by Jupiter's intense magnetic field, which causes particles to reach such high speeds that they can split
the water molecules in the plume when they hit them, resulting in oxygen and hydrogen ions which leave their telltale imprint in the colours of the aurora.
Water molecules in interstellar clouds might absorb enough heat to allow the cloud to continue to collapse and form a star.
A spin wave can be thought of as similar to an ocean wave, which keeps
water molecules in essentially the same place while the energy is carried through the water, as opposed to an electric current, which can be envisioned as water flowing through a pipe, said principal investigator Kang L. Wang, UCLA's Raytheon Professor of Electrical Engineering and director of the Western Institute of Nanoelectronics (WIN).
This process of smoothing the original water isotope variations from precipitation is dependent on the temperature, as
the water molecules in vapour form are more mobile at warmer temperatures.
But when scientists split
water molecules in a type of artificial photosynthesis, the goal isn't to grow an artificial plant.
The radiation from decaying uranium nuclei breaks apart sulfur and
water molecules in the stone, producing molecular fragments such as sulfate and hydrogen peroxide that are excited with internal energy.
UV astronomy must be conducted in an airless environment — in Earth orbit, say, or on the moon — because
water molecules in Earth's atmosphere absorb UV light.
The branching involves the way in which
water molecules in the air move toward the crystal; and the symmetry involves their final attachment to the crystal surface, causing the crystal to grow.
UV radiation can break apart
water molecules in the atmosphere and even cause hydrogen and oxygen atoms to be lost to space, depleting a planet of water.
They arise when pressure from the wind starts a pressure hump, which passes on its energy to adjacent
water molecules in the direction of the wind.
Their fundamental form derives from the arrangement of
the water molecules in the ice crystal.
Water molecules in the solid state, such as in ice and snow, form weak bonds (called hydrogen bonds) to one another.
By trapping
water molecules in carbon spheres and cooling them, scientists at the universities of Southampton, Nottingham and Columbia University in New York, have been able to follow the change in form (or isomer) of the molecules.
It was demonstrated that the movement of
water molecules in the vicinity of the protein's active centre, the so - called binding pocket, is connected to potential binding partners in the water solvent.
Using this method, the researchers proved some time ago that proteins influence
water molecules in their surroundings: they determine the choreography of their movements.
ALMA picks up light emitted by glowing dust in SDP.81 and also sees signs of carbon monoxide and
water molecules in the ring, helping astronomers determine its structure and internal motion.
Submillimeter emissions are typically produced by carbon and
water molecules in distant galaxies and star - forming regions.
But two years ago, a pair of NASA scientists levitated a mouse using a superconducting magnet that repelled
the water molecules in the creature's body.
While stromal ADC and sonographic cervical length showed no difference between both groups, the subglandular ADC was higher in patients with impending delivery, suggesting an increased mobility of
water molecules in that area consistent with cervical ripening.