Clouds are made up of
water droplets so the total effect of water, according to Schmidt, is ~ 75 percent.
Not exact matches
So when we practice with
water it's practically
droplets in a cup.
Dispersants have been applied to oil slicks on the ocean surface for half a century to break petroleum into smaller
droplets that dissipate into
waters of the open ocean
so that less oil reaches ecologically sensitive coastlines.
The
droplets were positively charged,
so why didn't they merge with the negatively charged body of
water?
Ice crystals do not form easily,
so water droplets can persist in the atmosphere even at temperatures far below freezing.
Where the atmosphere has few aerosol particles — over the ocean, for instance —
water molecules have fewer particles to condense around,
so cloud
droplets are large.
So droplets of salty fluid on Mars would tend to absorb
water vapour from the atmosphere, explaining why the clumps grew over time.
To copy the beetle's
water - collecting design, materials scientist Michael Rubner, chemical engineer Robert Cohen, and colleagues at the Massachusetts Institute of Technology in Cambridge created a rough coating
so water repelling — or hydrophobic — that
water sprayed onto it stood up in nearly spherical
droplets.
Smaller, dispersed
droplets are less threatening for two reasons: they present more surface area to the
water,
so ocean bacteria can degrade the oil faster; plus, the small
droplets are much slower to rise to the surface, keeping the oil at sea instead of in coastal wetlands and giving the bacteria more time to do their magic.
Water droplets condense around aerosols,
so their presence affects the ways clouds form and behave — with significant consequences for the climate as a whole.
This little fellow sticks his butt in the morning air,
so that minute
water droplets are attracted to the bumps and then run down his back and into his mouth.
Simultaneously, as the average liquid
droplet becomes smaller through evaporation, the vapor's density increases,
so more vapor molecules merge at a faster rate to become microscopic liquid
droplets, and more
water molecules are ionized.
The heat energy gained by SCW simply increases the pressure, velocity, and number of
droplets, all of which then increase the heat removal.91 Significantly, the hotter SCW becomes, the more the
water molecules break into ions (H + and OH --RRB-
so most of the energy becomes electrical, not thermal.
Thanks
so much Hana, I tried it this morning with almond meal, it worked beautifully and just needed to add a few extra
droplets of
water to get the mixture together.
There are
so many amazing shots running through our minds right now — one of the opening shots from inside Darlene's car, fireworks exploding behind suburban roofs; the tracking shot of the cab (whose driver would meet his fate at the corner of Washington and Cherry), which pivots as the cab turns; the way Savides captured the
droplets of
water that dot Jake Gyllenhaal «s face as he knocks on Mark Ruffalo's door at the end of the movie.
As such, Slightly Mad Studios are said to be working on optimising the weather effects
so that the new
water droplet physics won't have an adverse effect on the performance.
DriveClub gives it a serious run for its money, though, as Evolution went the extra mile by adding
water droplet movement physics
so that the
water dynamically sloshed around the windscreen as you drove.
The satisfyingly fat
droplets of
water that fall onto the car roof; the hypnotic sound of the windscreen wipers moving back and forth; the blurred shapes and colours of the view ahead — these are all elements that make car journeys on wet days
so appealing.
There are an ever increasing number of these «indirect effects», but the two most discussed are the aerosol / cloud opacity interaction (more aerosols provide more sites for
water to condense in clouds, thus cloud
droplets are smaller and clouds become more opaque), and the cloud lifetime effect (smaller
droplets make it more difficult to make drops big enough to rain, and
so clouds live longer).
So as said
droplets of sulfuric acid could in atmospheric pressure of around 1 atm, heat up to 100 C.
Water droplets would never get this hot - but instead would quickly evaporate at around 30 C [assuming atmosphere was wetter, in dry atmosphere of Venus they evaporate quickly as ice.
I would also add that the altitude to which
water droplets are delivered
so that they LW radiate out faster may increase with added CO2.
The aim is to increase the
water droplet content of the clouds, making them reflect more sunlight —
so called marine cloud brightening.
With 2), there's still something I don't get... and this applies just as much to your answer as to any answers you would get from climate science, since clouds are clouds (i.e
droplets of
water), and
water vapour is a gas,
so their back - radiation explanation doesn't even apply in the case of clouds (not saying it physically could apply anywhere but hopefully you get what I mean)... what I don't get is, you liken them to a blanket, but a blanket is next to you, clouds are separated from the surface by quite a bit of atmosphere —
so why is it warmer the next morning at the surface when the clouds are there?
If live near an ocean you get salt corroding everything -
so have these
water droplet - not formed from condensation [that would be pure
water and not a problem] but wind and waves mechanically making these
droplets, plus high humidity of general environment preventing them from evaporating quickly.
That evaporation cools the air parcel which makes it yet denser
so the downdraft accelerates taking its
water droplets with it and if not all the
water droplets are reabsorbed then the surface gets rain.
So if
water molecule formed with say 5 molecules of H2O liquid
droplet, within some period measured in nanoseconds, and if this other gas molecule condensed making 6 molecules, than they may fly apart within nanoseconds or less than a second.
I observed single deep clouds as the
droplets coarsen
so approximately constant
water content and physical dimensions.
Higher dust concentrations can suppress rainfall and enhance drought conditions, by dispersing
water among the dust particles,
so that
water droplets are not heavy enough to fall.
In a warmer world, air holds more
water vapor,
so when cloud conditions are right for that vapor to form
droplets, more precipitation falls.
Water droplets will activate the touch sensor, so beading water off quickly keeps the Gear Live from running through the
Water droplets will activate the touch sensor,
so beading
water off quickly keeps the Gear Live from running through the
water off quickly keeps the Gear Live from running through the menu.