Further development and commercial availability of Carbon Capture and Storage (CCS) technologies will harness the potential of coal and its contribution to sustainable and
equal energy spaces.
Not exact matches
All that
energy packed into such a tiny
space creates a plasma of matter's fundamental building blocks, quarks and gluons, and thousands of new particles - matter and antimatter in
equal amounts.
In fact, according to quantum mechanics, the
energy contained in all the power plants and nuclear weapons in the world doesn't
equal the theoretical
energy contained in the empty
spaces between these words.
But observations beginning in 2014 from NASA's NuSTAR and other
space telescopes are showing that some ULXs, which glow with X-ray light
equal in
energy to millions of suns, are actually neutron stars — the burnt - out cores of massive stars that exploded.
In the ETF
space,
equal - weight and other smart beta strategies can be efficacious at the sector level, but with
energy, it may be best to stick with prosaic methodologies.
Absorption of thermal radiation cools the thermal spectra of the earth as seen from
space, radiation emitted by de-excitation is what results in the further warming of the surface, and the surface continues to warm until the rate at which
energy is radiated from the earth's climate system (given the increased opacity of the atmosphere to longwave radiation) is
equal to the rate at which
energy enters it.
Physics says the
energy into a system must
equal the
energy out once in balance, The heat in the oceans is what must be there to produce enough heat radiation out to
space through the air / GHG blanket.
Some 99.5 % of the hurricane force cause no harm and is naturally dissipated — every second, some 2 million metric tons of air are circulated in, up, and out of the hurricane — where heat
energy is radiated to empty
space — which every day
equals, the
energy released by the fusion of four hundred 20 mega-ton hydrogen bombs (See, Rice University's Hurricane Trivia at Houston TeacherTECH Archives).
AGW
space cadets find it difficult to understand this — that the planet emits in the IR at a rate that must ultimately be conditionally
equal to the incoming
energy.
Stated more precisely, for an equilibrium state to occur, radiative
energy out to
space (reflected solar plus emitted longwave) must
equal radiative
energy in (incident solar).
As a result, and as we would expect, in the isothermal condition the
energy is spread out evenly through
space (
equal energy per volume) rather than
equal energy per molecule as Hans Jelbring and Mr. Verne assert.
For that
energy to be transferred poleward instead of lost to
space, it would have to encounter a resistance
equal to 165Wm - 2 which would produce a «DWLR» of 2 * 165 or 330Wm - 2 + / - a touch.
This is the amount of extra
energy the Earth would radiate back into
space (all else being
equal) if the temperature were raised 1 °C, simply because hotter objects give off more radiation.
A larger amount of
energy has to accumulate in the shell until the
energy being received from
space is
equal to the
energy being lost from
space.
Above all it must be constant because
energy is also being radiated to
space at an
equal rate when the atmosphere is at equilibrium.
3) The TOA
energy imbalance
equals on average total forcing from all factors since 1750 (by convention) minus the increase radiation to
space due to increased surface temperature.
I can see isolated cases as compression at the poles and other curiosities but not on the average, and besides, even with those effects the temperature gradient is rarely actually inverted so in a net sense that is only slowing the cooling of the surface at the expense of
equal cooling in the atmosphere which ends in a greater temperature gradient therefore a greater flux of
energy upward to
space.
I believe that if in the vacuum of
space you place a blackbody object with (a) a constant (i.e., unchanging
energy per unit time) internal thermal
energy source, and (b) internal / surface thermal conduction properties such that independent of how
energy enters the blackbody, the surface temperature of the blackbody is everywhere the same and you place that object in cold
space (no background thermal radiation of any kind), eventually the object will come to a steady state condition — i.e., the object will eventually radiate
energy to
space at a rate
equal to the rate of
energy produced by the internal
energy source.