Sentences with phrase «sun gets to the surface»

My recommendation to you it to, at least in the beginning, ignore the way that the sun gets to the surface.

Some metal, plastic, and even rubber surfaces can get hot enough to burn the skin if they're in the direct sun — even on relatively mild days.

And if this beam is also focused into a speck with a three millimeter diameter, then we get an intensity of light an order higher than the intensity of light close to the sun's surface, which has a radiation power of about 20 gigawatts a square meter.

«Our goal is to find out how the solar wind gets accelerated, and why the corona is even hotter than the surface of the sun.»

We also use other filters to look at the sun to get direct readings of how much sunlight is reaching the surface.

The front end has a plasma torch that gets up to many thousands of degrees Celsius, as hot as the sun's surface.

Above the surface of the sun, plasma roiling in the star's atmosphere does something that so far defies explanation, and seems to defy physics: It gets hotter as it moves farther out.

Aerosols (soot) keep much of the sun's energy from reaching the surface, which means the monsoon doesn't get going with the same force and takes longer to gather up a head of steam.

But, as the comet nears the sun and rotates, the lander should get the solar power it needs to wake up and continue studying the surface of the comet, says McDowell.

A mission to reignite the giant life source has mysteriously failed and it is now up to a second ship, Icarus II, to get the job done and save the planet by dropping a giant bomb on the surface of the sun.

The design of the G Convertible interior takes into consideration the typical challenges to fully enjoying open air driving, such as added interior noise and turbulence, added heating and cooling system demand and even the fact that the seating surfaces can get hot in the sun or cool at night.

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They need a place to call their own where they can get away from it all, enjoy soft surfaces, and soak up some sun!

Sure, said cutting - edge technology makes you look like George Hamiliton's sun - shriveled nutsack, but when your secret underwater utopia starts to go to hell in a proverbial handbasket it's gonna be worth the shock you get every time you stare into a reflective surface.

Listening to live music is as close as we get to skimming across the surface of the sun.

Cracco invites viewers into the intimacy and the danger of light, whether it is the low light of a candle, the flash of colliding atoms, or the blinding light of the sun, Blinded highlights the importance of the surface, the value of improvisation and the simple fact that just as light can not turn a corner, when you get to the edges of these new works the illusion breaks down, leaving viewers with the memory of being blinded by the intimacy and the intricacy of color and paint.

They don't have to be scientists to understand that the higher energy waves of visible light from the Sun can penetrate through CO2, H2O, CH4, NOZ etal in the atmosphere, but the lower energy radiation of infra - red waves, from Earth's surface, have problems getting back out through these molecules, and a new energy balance has to be established in the form of rising temperature.

A thermometer on the surface of the Earth, exposed to the Sun, will not get hotter just because you increase the concentration of CO2 between it and the Sun.

Actually, though, most of the OLR originates from below the tropopause (can get up around 18 km in the tropics, generally lower)-- with a majority of solar radiation absorbed at the surface, a crude approximation can be made that the area emitting to space is less than 2 * (20/6371) * 100 % ~ = 0.628 % more than the area heated by the sun, so the OLR per unit area should be well within about 0.6 % of the value calculated without the Earth's curvature (I'm guessing it would actually be closer to if not less than 0.3 % different).

If the sun suddenly shut off, the earth would cool down quickly, and get so cold that the greenhouse gases (most, if not all; certainly water vapor and CO2 - methane freezes at 91 degrees k or -182 deg C) that slow the loss of heat to space would condense out, making the equilibrium surface temperature even colder.

Instead of pointing out the mechanism to get the surface effect of the sun down below 700 meters, your drone about solar cycles.

The surface of the Moon, having no appreciable atmosphere, gets far hotter than the Earth for the same exposure time to the Sun.

I hear this scare - tactic every September, yet it doesn't ring true to me, because by September the sun gets so low in the arctic that albedo rises sharply from the flat surface of the melted sea.

RE: Q: «Also, at some point, when the sun gets very low, it seems to stop penetrating the ocean's surface.

Also, at some point, when the sun gets very low, it seems to stop penetrating the ocean's surface.

The temperature at the poles of Venus (over 720K) can not be explained by any «runaway greenhouse effect» because there is less than 1W / m ^ 2 from the Sun that gets through the Venus atmosphere to the surface at the poles.

I couldn't get the Earth to have a surface temperature of 3K in the absence of the Sun.

The first is the original «invisible something barrier» at the top of the atmosphere, TOA, like the glass of a greenhouse, preventing the longwave infrared from the Sun from entering, but allowing the mainly visible light to reach the surface and directly heat it and the second is that the Sun produces insignificant amounts of longwave infrared and none of this gets through TOA.

If they were to continue to pull down (mainly ENSO / PDO and the Sun), and never revert up, then maybe we'd get 2.8 °C of surface warming in 2100 rather than 3.0 °C (for instance).

Thank you, Bevan, for the very clear analysis of the absurdity created by the impossible AGW fictional fisics of `'» shortwave in longwave out» and the thermal infrared beam from the Sun blocked by an unexplained invisible barrier greenhouse glass unable to get through to heat the Earth's surface», but, included in their upwelling and downwelling measurements from the atmosphere anyway, which they call «backradiation».

For this reason, the shell will receive less W / sqm from Earth radiation than is emitted by the surface, because the radiation will spread out by the inverse square law just as sunlight gets less intense the further from the sun you get, and the shell will radiate more to space than back to Earth.

And NOBODY ever observed it to get warmer (higher Temperature) in the shadow zone, when a cloud passes in front of the sun; it ALWAYS gets cooler (lower Temperature) And of course I also believe that it is the warmer more humid conditions at the surface, during the day, that creates the high level balmy cloud conditions at night; those clouds did NOT create the conditions on the ground.

Without any GHG no H2o, CO2 etc the sun would essentially have free rein with no absorbtion, so surface would get 340 w / m2 thus raising up to 278 K or 5 C to start.

But even after the input from the sun tapers off the surface is still absorbing more energy than it is losing so it continues to get warmer for a few hours.