But NYC
just radiates heat.
Not exact matches
WISE's longer - wavelength detectors will be cryogenically cooled to
just 8 kelvin, or about — 265 degrees Celsius; warm instruments can contaminate infrared observations with their own
radiated heat.
Spitzer was sent so far out because its delicate infrared - sensitive instruments must be kept at a frigid temperature
just above absolute zero, and it is easier to maintain that temperature by operating far from the
heat that
radiates from the surface of our planet.
Writer / director Lorene Scafaria's valentine to her own mother, on whom Sarandon's character Marnie is based, is not
just full of laughs and not a little poignancy, but it positively
radiates with the
heat and light thrown up by its star.
However, recently I've noticed that the rear brake rotors are significantly hotter than the front after driving,
just based off of the
heat radiating from them.
T10 - Cross Reference W5W (194 168) 147 152 158 159 161 168 184 192 193 194 259 280 285 447 464 501 555 558 585 655 656 657 1250 1251 1252 2450 2652 2921 2825 504 2821 12256 12961 M158 M155 Benefits: 1 * Low Power Consumption, energy saving 2 * Faster on / off response time 3 * Long - lasting (long service life) Up to 50,000 hours 4 * Good
heat dissipation, High Temperature Resistance, Rust Resistance, Bump Resistance, vivid color 5 * Protect the eye - sight, no strobe, no
radiate, no light pollution 6 * Easy to Instal, Simple to fit,
Just plug in and play.
«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.»
There's also a number of interesting applications in the evolution of Earth's atmosphere that branch off from the runaway greenhouse physics, for example how fast a magma - ocean covered early Earth ends up cooling — you can't lose
heat to space of more than about 310 W / m2 or so for an Earth - sized planet with an efficient water vapor feedback, so it takes much longer for an atmosphere - cloaked Earth to cool off from impact events than a body
just radiating at sigmaT ^ 4.
Also, if radiative limits are preventing tropical precipitation, wouldn't that
just increase the height of the convection cell, if it can't
radiate heat as efficiently?
You
just have to remember that what feels hot on your skin and is boiling you up inside is invisible
heat radiating out from the massive millions and millions of degrees hot Star in the sky we call The Sun.
Just as an incandescent bulb
radiates out 95 %
heat which is thermal infrared, and only 5 % visible light.
Of course the air doesn't
just lay around waiting to be
heated, but conducts, convects, and
radiates the
heat away rapidly enough that we don't run around in shorts and flip flops in the winter time.
Since to me (and many scientists, although some wanted a lot more corroborative evidence, which they've also gotten) it makes absolutely no sense to presume that the earth would
just go about its merry way and keep the climate nice and relatively stable for us (though this rare actual climate scientist pseudo skeptic seems to think it would, based upon some non scientific belief — see second half of this piece), when the earth changes climate easily as it is, climate is ultimately an expression of energy, it is stabilized (right now) by the oceans and ice sheets, and increasing the number of long term thermal radiation /
heat energy absorbing and re
radiating molecules to levels not seen on earth in several million years would add an enormous influx of energy to the lower atmosphere earth system, which would mildly warm the air and increasingly transfer energy to the earth over time, which in turn would start to alter those stabilizing systems (and which, with increasing ocean energy retention and accelerating polar ice sheet melting at both ends of the globe, is exactly what we've been seeing) and start to reinforce the same process until a new stases would be reached well after the atmospheric levels of ghg has stabilized.
although the cooler planet emits radiation toward the warmer planet, supposing that one were nominally 100K and the other 150K, at some point, supposing they were fixed to receive one another's thermal influuence they would thermalise, if there were not the presence of another
radiating body, although radiation goes in all directions, not
just towards other hypothetical planets, and may lead to Kelvin's
heat death hypothesis where there was no thermal energy left.
Since those 15 micron photons are impacting a surface that is already
radiating away from the hugely more massive surface (speaking at molecular level) those photons will be absorbed and
radiated out again because the
heat store
just below the molecular surface is at a higher energy potential.
This might
just save the incandescent bulb from oblivion: The gluh lampe picks up the
heat energy produced by the light bulb and warms the clay brick, which
radiates for up to an hour after switching off the light.
We can't pretend that we «
just know» that
heat is building on the planet if we can't see the planet
heating on the grounds that «it must be somewhere» because it doesn't have to be anywhere on the planet, it may be
radiating away, light years away, in the case of the pause.
So the choices area: a) to stay hot (in other words, since
heat is something like the average velocity of atoms, the N2 could
just goo off in all directions at high velocity, until they collide with something), or b) to
radiate.