Energy in
equals energy out and the globe as a whole has not warmed in the 21st century.
The only way you can get around the requirement that the steady - state temperature be such that the energy in from the sun
equals the energy out from terrestrial radiation is to have some other significant source of energy.
That is his requirement that Aa = Ed; energy in
equals energy out.
Or if the material had high heat capacity the only effect would it would take longer warming up before the time in which the energy in
equals the energy out - getting to this point is only value of the constructed fictious blackbody.
Not looking closely, it seems trivially true that in the steady state energy in
equals energy out.
Energy in,
equals energy out.
It means that energy in
equals energy out.
Fuel in
equals energy out, with the unused portion being stored as fat.
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.
Also, energy in must
equal energy out.
Energy in must
equal energy out plus energy retained by the first law.
Since energy in must
equal energy out (as per Conservation of Energy) the formula for Absorbed is as written above.
Not exact matches
He spewed
out negative
energy and actions and got a more than
equal and opposite reaction which expunged him from the earth.
This is the point at which the amount of
energy coming
out of the fusion reactions
equals the amount of
energy needed to maintain the plasma.
And remember that my initial entry into the
energy problem isn't so much climate, although I think that's super, super important and I absolutely put it
out there
equal, but I start
out with let's make
energy cheaper, because when I say I want more fertilizer for Africa, I want more light at night, I want vaccines to stay cold for Africa, that's all about the price of
energy.
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.
Researchers discovered in the 1970s and 1980s that three of the forces of nature attain
equal strengths and unite into a single force at exactly this
energy scale, as long as the known laws of physics are rounded
out with a few missing parts.
Astronomers have found a relatively tiny galaxy whose black - hole - powered central engine is pouring
out energy at a rate
equal to that of much larger galaxies, and they're wondering how it manages to do so.
«Unfortunately, the
energy balance equation [you know, calories in have to
equal calories
out] suggests that
energy intake and
energy expenditure occupy equivalent roles in determining
energy balance, when in fact the factors governing
energy intakes influence the
energy balance far more powerfully than the factors determining resting
energy expenditure.»
After all, according to the law of the conservation of
energy, the calories in must
equal the calories
out, i.e., they must balance.
His stamina and
energy for talking, which I soon found
out was really a performance,
equaled three students ---- maybe four if he was really cookin».
Few parents have the time,
energy or education policy experience to go hunting for the facts on which schools are actually helping all their students learn, which ones are in desperate need of support, and which ones are eking it
out for affluent kids but still failing to deliver an
equal education to every child.
Applying
equal weight to the visual, literary and performing arts, we set
out to start an organization that would build community, foster artistic expression and raise the imaginative
energy in us all.
It appears to me that a more correct analysis would note in equilibrium for a given layer
energy out must
equal energy in.
This leads to a higher equilibrium temperature, but balance is reestablished again in a sense that time averages of
energy in - and -
out are
equal for each volume element, given some fixed elevation of greenhouse gas concentration.
It is spreading
out even from cooler regions; but because the concentration is less, the flow of
energy out of lower concentrations is less than the flow
out of higher concentrations (other things being
equal).
OTOH,
energy coming into the earth system without an
equal amount going back
out means it's either going to be manifested in heat or kinetic
energy (e.g., fierce storms).
I am agreeing that convection has been modeled, & I agree that the GCMs have included an equlibrium
energy - in
equals energy -
out at the TOA.
But for an external solar forcing, the increase in incoming
energy, causes increased convection, conduction and radiation, which results in increased
energy out which results in a new higher
energy - in
equals energy -
out.
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).
As far as TOA is concerned
energy out is still
equal to
energy in, no magical surplus in the system there then, so surface heat is still being whisked away by convection — which of course is dominant.
Energy in less energy out equals the change in energy stored — mostly as heat in oceans and atmos
Energy in less
energy out equals the change in energy stored — mostly as heat in oceans and atmos
energy out equals the change in
energy stored — mostly as heat in oceans and atmos
energy stored — mostly as heat in oceans and atmosphere.
To stay at the same temperature we would need an
equal change in
energy out.
By the law of conservation of
energy — the average unit
energy in (EIN / s) at the top of atmosphere (TOA) in a period less the average unit
energy out (EOUT / s) is
equal to the rate of change (d (GES) / dt) in global
energy storage (GES).
Energy in less energy out equals the change in global energy storage mostly as heat in oceans and atmos
Energy in less
energy out equals the change in global energy storage mostly as heat in oceans and atmos
energy out equals the change in global
energy storage mostly as heat in oceans and atmos
energy storage mostly as heat in oceans and atmosphere.
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).
The change in planetary
energy content is
equal to the difference between
energy in and
energy out.
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.
If there were no IR active gases in the atmosphere, then the system as a whole would still reach equilibrium with the
energy absorbed
equal to the
energy radiated
out.
Energy in less energy out equals the change in enery stored in the Earth system over any p
Energy in less
energy out equals the change in enery stored in the Earth system over any p
energy out equals the change in enery stored in the Earth system over any period.
In the troposphere, you do not see solar
energy absorbed and latent heat because they are
equal and cancel
out in the equation.
Flux in minus flux
out equals rate of
energy gain.
angtech, That is conservation of
energy, Brandon, heat in [from the sun]
equals heat
out.
After that point, the Earth temperature remains constant (like the height of the tray on the weight scale) and an
equal amount of
energy comes into and
out of the Earth (like the equality between the
energy in the yellow balls and the purple ones).
Robert Ellison, you wrote: and the work done in melting ice or vaporising water — is approximately
equal to
energy in less
energy out.
Energy out equals ener
Energy out equals energyenergy in.
Every year, the amount of
energy entering the system (red) should
equal the
energy leaving the system (light blue) plus the
energy going into /
out of the ocean (dark blue).
A model that predicts
equal chance of temp / body weight going up or down in the face of an increasing
energy imbalance (i.e. more energy going in (the planet / my body) than going out), however hard to reject because it allows for a very broad array of possibilities, has an unphysical tendency to it: Energy conservation tells us that the temp / body weight should inc
energy imbalance (i.e. more
energy going in (the planet / my body) than going out), however hard to reject because it allows for a very broad array of possibilities, has an unphysical tendency to it: Energy conservation tells us that the temp / body weight should inc
energy going in (the planet / my body) than going
out), however hard to reject because it allows for a very broad array of possibilities, has an unphysical tendency to it:
Energy conservation tells us that the temp / body weight should inc
Energy conservation tells us that the temp / body weight should increase.