The process of such evaporation and then condensation together with those other weather processes is an express route to
get heat energy from ocean to surface to atmosphere to space and the bigger the temperature differential between ocean surface, atmosphere and space the faster they must all work to move the atmosphere back towards a temperature equilibrium.
AGWSF claims the Sun is 6,000 °C and says we don't
get any heat energy from it..
Making charcoal as outlined
gets both heat energy and carbon back to inactive, non - recycling form.
Not exact matches
@Kenrick Benjamin: «Skytag - Science have taken us back to the orgin where pure
energy is eternal, we all know that Energy is govern by properties (Motion, Heat and Light) however energy it self is not sentient, so how did the porperties get it's LAWS.&
energy is eternal, we all know that
Energy is govern by properties (Motion, Heat and Light) however energy it self is not sentient, so how did the porperties get it's LAWS.&
Energy is govern by properties (Motion,
Heat and Light) however
energy it self is not sentient, so how did the porperties get it's LAWS.&
energy it self is not sentient, so how did the porperties
get it's LAWS.»
Skytag - Science have taken us back to the orgin where pure
energy is eternal, we all know that Energy is govern by properties (Motion, Heat and Light) however energy it self is not sentient, so how did the porperties get it's
energy is eternal, we all know that
Energy is govern by properties (Motion, Heat and Light) however energy it self is not sentient, so how did the porperties get it's
Energy is govern by properties (Motion,
Heat and Light) however
energy it self is not sentient, so how did the porperties get it's
energy it self is not sentient, so how did the porperties
get it's LAWS.
@JDJ: the storm came because our planet has warm zones and cool zones, due largely to the
energy our atmosphere receives from the sun, and storms are how
heat gets transferred from the tropics to the temperate and frigid zones.
These little
energy balls helped me doing my workouts with Country
Heat so that I didn't
get burned out.
If you've
got it, flaunt it — and your hair will remain perfect until the excess
energy you used powering two hair dryers will hasten the world's expenditure of fossil fuels to the point where we can no longer afford the electricity to power hair dryers, and instead resort into walking into darkened caves full of bats and allowing the collective
heat of their tiny nocturnal bodies to hasten the evaporation of our surplus hair water.
The molecule
gets rid of some of the absorbed
energy by
heating up the material around it, and this generates a pressure wave.
But one of the things that I have been very impressed by here is a lot of the stories of hope; many folks have traveled a long way to share what they are doing on a very local level to help combat climate change, and that's everything from, kind of, rural electrification in Africa and India, you know, bringing light to people who are still using dung or coal for cooking and
heating and dying from indoor air pollution to, you know, major renewable
energy projects, say, here in Denmark where they now
get 20 percent of their electricity from wind power.
Because most salts only melt at high temperatures (table salt, for example, melts at around 1472 degrees Fahrenheit, or 800 degrees Celsius) and do not turn to vapor until they
get considerably hotter — they can be used to store a lot of the sun's
energy as
heat.
How does all that
energy get into the corona without
heating up the surface?
But it has been unclear whether that dust is
heated by the
energy created as matter
gets sucked into the black hole, or by radiation from newly born stars.
And, you know, their typical day is 115 degrees and humid, they've
got no source of fresh water; so they desalinate volumes of water but that takes a lot of
energy and a lot of the waste there is in terms of
heat.
How does that electronic
energy get converted to
heat, you ask.
You have those, you kind of solve a lot of the blanket problems where you have your fusion blast in the center and then it hits a blanket which is basically nuclear waste, depleted waste, and there's a lot of left over
energy in that waste; and you have neutrons hit that waste and then that catalyzes further reactions, you
get a lot more
heat.
Control basically means it doesn't explode, it just moves along slowly and produces
heat and you can then use that
heat, and they've been working on this for decades and decades now and
getting closer and closer to the point where they're producing actually more
energy than they put into the experiment.
If an LED system does not have an effective way of
getting rid of excess
heat, rising temperatures will damage LED components, dimming the light and curtailing its lifetime, according to the U.S. Department of
Energy.
In household refrigerators, for example, the
heat exchanger at the back
gets warm because the
energy extracted from the objects inside is deposited there.
Release more
energy, again in the form of infrared radiation, aka
heat — and you effectively
get free A / C.
These apparently evolved not to store but to burn
energy — quickly, as a way of generating
heat and keeping the body warm in cold conditions, as well as possibly to
get rid of excess caloric intake.
The total
energy hitting Proxima b is only 65 % of what Earth
gets from the sun, so liquid water could easily exist there so long as the planet has some sort of atmosphere to trap
heat.
It will
get hot and radiate away some of its
energy — «shine» — as it shrinks, so hastening the shrinkage and
heating up even further.
Methods: Researchers Drs. Samson M. Hagos and L. Ruby Leung of PNNL, and Dr. Jimy Dudhia of the National Center for Atmospheric Research, looked at two major factors that propel and sustain the MJO: thermodynamics, or where it
gets its
heat and
energy, and moisture.
When they applied an
energy source to the fibers — typically
heat — the scientists
got different versions of their artificial muscle fibers to contract by 49 % or to expand by 67 %.
If we had launched the Triana / DSCOVR climate satellite ten years ago, instead of mothballing it, we'd probably have robust answers to the
energy budget question, and we could
get the ocean
heat change by calculating the (total
energy change)- (atmospheric warming).
Dr. Justin Marchegiani: And we'll do that in the morning before we
get up and we'll do it in the afternoon before lunch, because if we increase metabolism, we're thinking that that's gonna spill over into objective symptoms like
energy but we'll also see it as
heat in the temperature.
Brown fat increases your metabolism by burning off your ugly white fat to
get the
energy it needs to generate enough
heat to keep you warm but...
It is a very natural
energy, no shakes or headache, and I could stop and relax when I
got too hot, but I was never exhausted from the
heat.
I'm happy to finally be
getting some
energy back too — this
heat is what's bugging me;) wishing you all the best + excited to follow along with your pregnancy!
By the end of the month I was
getting so excited to come home and now that I'm here, I'm missing the
heat and
energy of Thailand.
The arguments
get heated when Bruce suggests a radical plan: Use the
energy from one of the cubes to revive the deceased Superman (Henry Cavill).
Silver City Consolidated Schools, in New Mexico,
got $ 357,500 under the American Recovery and Reinvestment Act to install a solar hot - water
heating system and other
energy - saving features.
And finally, the available materials didn't always fare well under the high -
heat, high - rpm operation of a turbocharger, which
gets its
energy from hot, flowing exhaust gases and typically spins well past 100,000 rpm.
The RX introduces the sixth generation of Toyota Hybrid Synergy Drive, the best yet at squeezing maximum current through the electric motor - generators — whether they're powering the car or capturing
energy from braking — without the
heat getting out of control.
If you're planning on completing extensive renovations that include
heating upgrades, new windows and doors or better insulation, consider
getting an
energy audit.
Heat is the
energy what
gets molecules moving.
The thin atmosphere allows Mars to more easily radiate
heat energy away, so temperatures near the equator can
get up to 70 °F (21 °C) during a summer day, and then drop down to − 100 °F (− 73 °C) at night.
In any case, no - one is suggesting that the planet's core is
getting hotter, which would be needed to actually make our planet warm; to the contrary, the planet will be very slowly cooling as the radioactive elements in the core providing this
heat gradually lose their
energy.
Thus, some
heat gets converted to kinetic
energy, but that
gets converted back to
heat, either by viscosity or by thermally - indirect circulations that produce APE while pulling
heat downward in the process (LHSO: Ferrel cell (driven by extratropical storm track activity), Planetary - scale overturning in the stratosphere and mesosphere (includes Brewer - Dobson circulation (I'm not sure if the whole thing is the Brewer - Dobson circulation or if only part of it is)-RRB-, some motions in the ocean; LVO: wind driven mixing of the boundary layer and of the upper ocean (though mixing itself tends to destroy the APE that the kinetic
energy would create by forcing
heat downward)-RRB-.
Add in that if it's the sun, the entire atmosphere will warm, since there's just simply more
energy put in to the system, whereas if it is CO2 or other blanketing method, there's no extra
energy put in, therefore the ground will warm and the upper air cool (since the upper air isn't
getting the warming from the lower layers it used to
get and the lower layers aren't losing the
heat they used to).
So, if lower volcanic activity during a period allows the concentrations aerosols to fall, more
energy gets into the earth system, thus generating more
heat.
The integrated «smart grid» electrical power network may be needed to make wind farm power available in the right places, but it will also perpetuate the most wasteful practice known to man which is the system of central power plants that throw away up to twice the
heat energy as they manage to
get converted into electric
energy.
How can it
get colder unless
energy is being reflected back into space before it is absorbed / released by the earth as
heat or the
energy is being used to warm the oceans to a greater depth.
Unlike inertial systems, magnetic systems have reached the temperature necessary for fusion, but only through external
heating devices that themselves use so much
energy that you
get no net
energy out while they are on.
If the surface layer of the ocean is not quickly exchanging
energy with the troposphere, which it can do easily and quickly but retaining the
energy, why is it not
heating up far more rapidly, If you are saying it is
getting rid of it to the deep oceans, how precisely is it doing this so quickly?
Since there are 2 types of
energy, kinetic and
heat, we might expect that some of the increasing GW
heat would translate into increased hurricanes & storms... or maybe it'll be doled out in bits and pieces that no one hardly notices... or maybe it'll just mainly stay in a
heat form and not
get kinetic on us.
They
get just as clean, and by not having to
heat the wash water, our
energy consumption (and
energy costs) are much lower.
The two billion people on the planet who lack a light bulb or scrabble for firewood for cooking or
heat (sometimes
getting into knife fights in the process) need affordable, convenient
energy sources now — whether from a solar panel or biogas, or from a conventional power plant or propane tank.
The best translation I can
get relates to insolative passive solar
heating with radiant
energy sinks.