In heat transfer where gasses radiate in contact with heatsources and contribute to temperature of the source, it ONLY happens in closed systems with internal heat sources and walls that
radiate the heat through the gas to the source.
Furious, I raced through the math exercises, glared at the lists of words for memorization, and counted numbers until my frontal lobes began to
radiate heat through my forehead.
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.
Not exact matches
A quick check on the Internet showed a little picture of a building with a quarter inch of a flame — one that
radiated heat and light
through the following decade to where we stand today.
«The total energy from an earthquake includes energy required to create new cracks in rock, energy dissipated as
heat through friction, and energy elastically
radiated through the earth,» reports the U.S. Geological Survey's Earthquake Hazards Program.
The animals
radiate tremendous amounts of body
heat through their «hot plates,» which they use to melt their tunnels in ice and to hunt their favorite prey: penguins.
«Our thermal overlay allows sunlight to pass
through, preserving or even enhancing sunlight absorption, but it also cools the cell by
radiating the
heat out and improving the cell efficiency.»
The light harmlessly passed
through skin and bone, but
heat from the gold particles
radiated outward, effectively cooking nearby cancer cells.
Keep your life energy flowing freely
through your third chakra and the light and
heat of your intentions will
radiate on the world.
Internal fins act as
heat sinks, absorbing
heat from engine coolant and
radiating it
through external fins to dissipate
heat twice as fast.
One way a dog
radiates heat is
through their feat pads, so when they can't avoid
heated ground (such as pavement), it can create a dangerous situation for them.
«Sunlight passes
through the atmosphere largely unhindered and warms the Earth's surface; the warmed surface
radiates heat and some of this radiation is absorbed in the upper atmosphere and re-emitted, about half of the re-emitted energy returning to the Earth's surface.
I would think that 3 degrees would be more than enough, especially after a few years of that
heat radiating through any sediment that is between the water and the hydrate or permafrost.
LOBET: When Green Belt organizers like Muriithi Kaburi visit a community, the energy between trainer and audience in a common native language — in this case Kikuyu — can be palpable, even if, as on this day, a wicked
heat radiates down on the assembled
through a metal church roof.
Such gases absrob
heat energy
through conduction and convection and then
radiate the energy away, some of which is lost to space.
Then, as the day wanes and the air cools, it rains and all that latent
heat radiates out
through a less cloudy night sky.
So the first explanation for how this works, the original, is the now classic «greenhouse glass like barrier stopping longwave from the Sun from entering the atmosphere while visible travels
through and is absorbed
heating the Earth's surface which then
radiates out thermal infrared, longwave.
An atmosphere that is perfectly transparent to incoming and outgoing radiation can not
radiate and all its
heat content comes from conduction from the surface and is transported
through the atmosphere solely by convection with no loss of energy to space except for the tiny fraction of atoms at the top of the atmosphere that exceed escape velocity.
These stem from a diversity of site - specific conditions, including, but not limited to: local vegetation; presence of building structures and contributions made by such structures involving energy use,
heating and air conditioning, etc; exposure to winds, the wind velocities determined by climatic factors and also whether certain wind directions are more favored than others by terrain or the presence or absence thereof to bodies of water; proximity to grass, asphalt, concrete or other material surfaces; the physical conditions of the CRS itself which include: the exact location of the temperature sensors within it, the degree of unimpeded flow of external air
through the CRS, the character of the paint used; the exact height of the instrument above the external surface (noting that when the ground is covered by 3 feet of snow, the temperature instrument is about 60 % closer to, or less than 2 feet, above an excellent
radiating surface, much closer than it would be under snow - free conditions).
The AGW claim from the comic cartoon KT97 and kin The Greenhouse Effect says that Shortwave, (near UV, visible and near infrared, but mostly visible)
heats up land and oceans, that no longwave infrared from the Sun gets
through the invisible undefined and unexplained barrier said to be like the glass of a greenhouse, and then the Shortwave
heated land and oceans
radiate out longwave infrared, (which in real physics is
heat, also called thermal infrared).
The warmed surface
radiates as a blackbody, and also loses
heat through rising in air currents or evaporated moisture.
The
heat radiated up
through the stratosphere is approximately the same, at equilibrium.
This pattern of a warming surface and a cooling upper atmosphere is due to an enhanced greenhouse effect: since more
heat is trapped near the surface, less is
radiated back up
through the stratosphere.
«Nullius in Verba» writes in to contest the article's claim that «This pattern of a warming surface and a cooling upper atmosphere is due to an enhanced greenhouse effect: since more
heat is trapped near the surface, less is
radiated back up
through the stratosphere.»
Hmm, when the temperature increases a bit, this causes an increase in
radiated energy of a bit plus a bit more in a way that's dependent on the starting temperature but not so much that you would really notice, and the increase could get funded by the change in conducted
heat through the bulk so long as we change the temperature of the other side of the bulk by at least, well, let's say a lot more, or at least a little more than when we did the experiment last time..»
I understand the superficial attractiveness behind the proposition that the atmoshpere contains some gases that are largely transparent to incoming solar radiation and therefore the majority of this solar radiation finds its way
through the atmosphere to the surface whereupon it
heats the surface and this
heat is, inter alia,
radiated from the surface at a different wavelength at which wavelength the atmosphere (or some gases within the atmosphere) is not transparent such that some of this
radiated enerrgy is «trapped» thereby effectively warming the planet.
The land surface has to balance this incoming energy by
radiating energy away and
through evaporation and conduction of
heat.
Instead, presumably, CO2 is fairly evenly distributed all
through the atmosphere - all around our heads and arms and legs - all the way up higher into the troposphere at every location in the troposphere - absorbing and
radiating some of its absorbed
heat to the also all - surrounding nitrogen / oxygen.
Seriously though, considering our lack of measurement continuity it is conceivable (if not entirely believable) that energy from the sun that
heated a surface that then emitted IR that would have been
radiated to space but instead was absorbed because of the slight increase in bandwidth coverage that a few extra CO2 molecules have provided and then emitted to Earth has been transferred
through the sea surface unnoticed (cough, cough) and warmed subsurface layers.
Well, as davidmhoffer (who I believe is the author of the quote you reproduce) says in the quote itself, ``... it [the igloo inner wall] does absorb
heat from you [the living, breathing, 98.6 ºF person in the igloo] and some of it is conducted
through the wall to the outside of the igloo, but, BUT... some is
radiated back to you, the person in the igloo.
It was so hot, I could feel the
heat radiating slightly
through that oh - so - breathable fabric.