Not exact matches
I took the dough out
of the bowl and flattened it on a floured surface, kneading it lightly to get the
air out, and repeated the rising process; placed the dough in the bowl, covered, filled
sink with
warm water, and placed the bowl in
sink.
Instead,
warm steam can be delivered by turning on all
of the hot water in the bathroom, including from the shower and
sink, close the bathroom door and holding your child as he breathes in the steamy, humidified
air.
Low pressure helps to form hurricanes, as a cycle
of warm air rushes upward and cold
air sinks.
By the way, in my opinion, the elevated greenhouse gas levels already in the
air, combined with the future emissions from machines already built, plus increased natural emissions from carbon
sinks becoming carbon emitters (i.e. permafrost melting) will cause the rate
of warming to top 0.4 C / decade by mid-century.
As
air sinks it
warms, and this also inhibits the formation
of showers and thunderstorms that could offer some heat relief.
The open cycle consists
of the following steps: (i) flash evaporation
of a fraction
of the
warm seawater by reduction
of pressure below the saturation value corresponding to its temperature (ii) expansion
of the vapor through a turbine to generate power; (iii) heat transfer to the cold seawater thermal
sink resulting in condensation
of the working fluid; and (iv) compression
of the non-condensable gases (
air released from the seawater streams at the low operating pressure) to pressures required to discharge them from the system.
15 Heat Transport in the Biosphere The unequal heating
of Earth's surface drives winds and ocean currents transport heat throughout the biosphere Winds form because
warm air tends to rise and cool
air tends to
sink air that is heated near the equator rises
Many factors — like the thermohaline circulation, which reverses direction at the poles as
warm salty water releases heat into the
air and
sinks down to the bottom — are heavily influenced by the ocean's salinity, and thus, the movement
of freshwater into and around the Arctic plays an important role in shaping both regional and global climate.
[«The process
of convection causes
air warmer than its environment to rise, and cold
air to
sink.
Trees are not only carbon -
sinks, but they also perform two other climate - affecting tasks: they absorb light into their dark leaves — causing a
warming effect — and they pull water out
of the ground and into the
air, creating low clouds that promote cooling.
Extratropical cyclones have three stages
of expansion: the developing stage, in which an undulating wave develops along the front; the mature stage, in which
sinking cold
air sweeps equatorward west
of the surface low - pressure centre and ascending
warm air moves poleward east
of the cyclone; and the occluded stage, in which the
warm air is entrained within and moved above the polar
air and becomes separated from the source region
of the tropical
air.
The
warmed air above the more favorably heated slope would start to move up slope due to heating, and the cooler
air on the other side
of the valley would start to
sink.
I bet I can explain that... the sun is weakening, but we get more strong offshore flow days, which can cause
warming by the compression
of air sinking over the western slopes
of the Cascades.
As part
of the planet's reciprocal relationship between ocean circulation and climate, this conveyor belt transports
warm surface water to high latitudes where the water
warms the
air, then cools,
sinks, and returns towards the equator as a deep flow.»
NASA's «GISS» temp uses land and ocean - based thermometers which measure «different parts
of the system [UHI affected parking lots, asphalt heat
sinks, AC exhaust
air vents], different signal to noise ratio [we bias toward
warm stations], different structural uncertainty [we «homogenise» our data set to cool the past and
warm the present to fit the global
warming narrative].»
The molecule will first use the heat energy in expansion and on cooling will again condense and
sink because heavier, and it will cool when its heat expanded volume flows to colder
air which absorbs the heat, the internal kinetic energy
of vibration, which if strong enough will pass that heat to another colder (which is why visible light is not a thermal energy, it is not powerful enough to move a molecule
of matter into vibration, it takes the bigger heat wave, longwave infrared, aka thermal infrared called that because it is the wavelength
of heat)-- that is how convective heating
warms the fluid gas
air in a room, by circulation, in the rise and fall
of molecules as they expand and condense, not by heat energy propelling molecules to hit other molecules..
As the
warm air in the room contacts the window and cools down, it
sinks to the bottom
of the room creating cool draughts.
These ocean upwelling conditions occur beneath a complementary downwelling branch
of the atmosphere's Hadley circulation — a planetary - scale flow pattern in both hemispheres that takes humid
air ascending at low latitudes, heats and desiccates it in deep precipitating tropical clouds, and then
sinks it at midlatitudes, where it is considerably
warmer and drier than it was.
«As
air sinks, it compresses,
warms, and dries out,» explains Jeff Masters — and that's not generally conducive to the rising
air of hurricanes.
P.S. a descent —
air sinking — will lead to a compression
of the
air in the real world, which would again
warm the
air.