It heats up in sunlight like most other compounds, but it does not
radiate its heat into its surroundings as much.
At the same time, the various bushes aren't producing any new leaves at all yet, and even the hazel flowers haven't really opened yet (normally the first sign of spring around here), despite sufficiently sunny days (which are followed by freezing nights because the lack of clouds mean the Earth
radiates heat into the atmosphere more easily).
The observations showed that when the usual shallow cumulus clouds give way to the MJO's towering cumulonimbus storms, radiant heat trapped by clouds and moisture gradually warms a deeper column of the lower atmosphere while the tops of the storms
radiate heat into space, cooling the upper troposphere.
They constantly
radiate heat into its ovens and hob plates, so it's always ready to use and in some cases can provide heating and hot water for the household, therefore the mighty appliance was popular in an era when central heating was a luxury in your home.
Not exact matches
Louvered shading devices on the windows allow the sun
into the space during cool days to
heat the concrete floor, which stores the sun's warmth and
radiates it back at night.
It takes hours to preheat a traditional tandoor, and as the thick walls become
heated, they
radiate the
heat back
into the oven where the temperatures can reach up to 800 degrees F.
The complete sunshield consists of five thin reflective layers of plastic that bounce
heat back
into space — and any energy they do absorb
radiates out between the layers.
The rest of the gas swirled
into the merged black holes, compression
heating it until it
radiated huge amounts of energy (Monthly Notices of the Royal Astronomical Society, doi.org/kqh).
The simulations showed that the black holes
radiated energy so intensely that they
heated surrounding gas far
into space — as far as 10,000 light - years away (see a movie here (22Mb)-RRB-.
The same greenhouse gases that trap
heat in the lower atmosphere allow the stratosphere to more effectively
radiate energy
into space.
The second challenge is that the structure must efficiently
radiate heat back
into space.
The cooling mechanism involves the absorption of
heat by the haze particles, which then emit infrared radiation, cooling the atmosphere by
radiating energy
into space.
The team calculated that those hydrocarbon clumps could absorb
heat from the sun as well as from gases in the atmosphere and
radiate it back
into space.
Every time you stroll outside you emit energy
into the universe:
Heat from the top of your head
radiates into space as infrared light.
They may act as reflectors, bouncing incoming sunlight back
into space, or like blankets, absorbing
heat emitted from the surface and then
radiating it back down.
Thus, says Narayan, if the matter coming
into the black hole is sparse enough, its particles won't interact much and won't
radiate much, and thus the matter will retain most of its
heat.
As matter is sent whirling
into a black hole, tugged ever harder by the hole's irresistible gravity, the material
heats up, and along its wild ride it
radiates that
heat away as light, until it disappears past the black hole's «event horizon» — the border beyond which nothing, not even light, can escape the hole's violent gravitational pull.
These gases, chief among them carbon dioxide (CO2), act as a blanket, trapping the sun's
heat that would otherwise be
radiated back
into space.
The rocks look different because of the amount of infrared light they
radiate into space, similar to the way a brick wall
heats up during the day and gives off its
heat at night.
For example, if a black hole is a member of a binary star system, matter flowing
into it from its companion becomes intensely
heated and then
radiates X-rays copiously before entering the event horizon of the black hole and disappearing forever.
Eventually, the
heat built up under the crust until it reached melting temperatures, allowing
heat to be more quickly
radiated into space.
The Yarkovsky effect is a force on an asteroid when it absorbs sunlight and then
radiates it back
into space as
heat.
With the GT - R's brake rotors still pinging and
radiating heat, we decide to lose 750 pounds and climb
into the Evora.
During braking, the kinetic energy is transformed
into heat, which is then uselessly
radiated into the environment.
All the
heat that comes off the exhaust system and torque tube that runs down the center of the car
radiates into the passenger compartment.
Her heart pounded in her ears and
radiated heat through her arm and fingertips until she heard and felt the crackle of the paper she'd bunched
into the crevice earlier.
«It's not just the colours that
radiate in a Bonnard», writes Roberta Smith, «there's also the
heat of mixed emotions, rubbed
into smoothness, shrouded in chromatic veils and intensified by unexpected spatial conundrums and by elusive, uneasy figures.»
b]
heat is neutralized by the» cold vacuum» that penetrates
into the atmosphere; not by
heat radiating out of space and albedo gizmo, please read the Holy Grail!!!
I fully acknowledge that greenhouse gases can trap solar radiation so that it converted to
heat and unless the
heat can be
radiated into space the Earth will warm.
Resonant absorption will convert
heat energy to kinetic energy in the molecule (water vapour, CO2 et al) and be transferred by collision to the general atmosphere, from where it will be
radiated into space.
And I recall one can make ice in the desert the same way; a concentrating solar power plant could also create a «cold reservoir» by
radiating heat away from some storage material at night, then dumping waste
heat into that in the daytime, perhaps.
These can transfer as much
heat in a day from the surface
into the troposphere where it is
radiated to space, as the all of mankind uses in a year.
A similar question has in a way been posed in NPR's Richard Harris report that Kevin Ternberth of NCAR speculated that extra ocean
heat may have
radiated back
into space (re: Argo data).
If they can take off excess
heat aqnd have excess power, they might store it for night operation, but pumping
heat into a reservoir costs more than
radiating it away.
The 540 cal / gram of evaporated water removed is released in the upper troposphere, where some of the
heat released can be
radiated into space = net cooling effect.
So the short answer is that the
heat radiates into space.
Is the
heat simply going
into melting the surface ice or is it
radiating into space?
No
heat»
radiates out in space, it's all canceled / neutralized by the» cold vacuum» that constantly penetrates
into the atmosphere!
The
heat is quickly
radiated back
into the atmosphere and joins the rest of the radiant energy in the atmosphere in the process of release to space.
The
heat is quickly conducted or
radiated back
into the atmosphere and joins the rest of the energy in the atmosphere awaiting a successful release to space.
Less clouds in that area for a while more
heat into the sea that day an more
radiated out that day and night.
But that's actually an understatement by Gallup, since more than 97 % of the world's climatologists say that those carbon gases, which are given off by humans» burning of carbon - based fuels, are causing this planet's temperatures to rise over the long term, as those carbon gases accumulate in the atmosphere and also block the
heat from being
radiated back
into outer space.
Installing light shading structures over streets, pavements and roofs can reduce the surface temperature of materials, and reduce the
heat absorbed and
radiated back
into streets.
It rises till it emits energy to lower energy dense regimes above — they strap a big cooling fin to the top in the computer of course, the
heat is washed /
radiated off
into the room and beyond; and in the storm system the
heat is given off toward higher atmospheric regions and ultimately space
Well, the air would cool down exclusively by
radiating heat radiation
into space.
What is the mechanism that prevents the re-
radiated heat from CO2 being
radiated into space?
Those with low tops bounce the Sun's energy back
into space to keep us cooler, whereas high - level clouds tend to trap
heat radiating upwards from the Earth.
It takes
radiated heat energy to move molecules
into vibration which is what
heats up matter.
At the same time there was an increase in IR — more
heat power flux being
radiated into space — planetary cooling.
So what propottion of
heat is
radiated into space, instead of
heating our planet?.