It would be much more appropriate to refer to the equilibrium amount of increase in sea level per unit of
achieved equilibrium temperature increase.
Not exact matches
In the coldest weather, without power, a Passive House can
achieve a safe interior
temperature equilibrium of approximately 55 degrees Fahrenheit indefinitely.
However,
equilibrium is always
achieved at a higher overall
temperature.
If the true thermodynamical
equilibrium is
achieved, all
temperatures will be equal to the
temperature of photons (Planck distr.)
With regard to the diabatic process the exchange of radiation in and out reaches thermal
equilibrium relatively quickly (leaving Earth's oceans out of the scenario for current purposes) and once the
temperature rise within the atmosphere has occurred then
equilibrium has been
achieved and energy in at TOA will match energy out.
However, if (a) after the atmosphere's
temperature has risen to
achieve radiation - rate -
equilibrium the atmosphere is still «trapping heat», and (b) «trapping heat» will cause
temperature to rise, isn't it correct to conclude that the atmosphere
temperature will «rise some more», and this rise will only stop when the atmosphere ceases to «trap heat?»
Ok, so the silver wire has greater conductivity to transport het to the upper atmosphere, but the less conductive real atmosphere has had several million years to transport surface heat to the top of the atmosphere and it would appear that it has still not
achieved anything like
equilibrium temperature.
DeWitt (and Robert Brown)-- To help you come to grips (grok) with the 2004 Verkley proof that top post Fig. 1
achieves thermal
equilibrium non-isothermally (meaning there exists their proven
temperature gradient eqn.
If he means the
temperature of individual molecules, then thermal
equilibrium in the «silver wire experiment» has already been
achieved (between the top and bottom of the air column).
It leads to whether we should accept the SB for * normal *
temperature matter at a constant and whether it should be reformulated to a coefficient, divided by as much as 12, to produce 30w / m2 for outgoing longwave from earth on average, since it's clear that earth isn't attempting to reach absolute zero in order to reach
equilibrium, and emit as much as it possible can to
achieve it.
More DLR therefore fails to
achieve a net slowdown in energy throughput and the
equilibrium temperature of the subskin and bulk ocean fails to rise despite the rise in
temperature of the ocean skin.
And a Passive House building without power should provide safe shelter through the coldest days of the year as it
achieves an indefinite interior
temperature equilibrium of approximately 55 degrees.
If they are surrounded by other molecules at the same
temperature, all they will
achieve is the swapping of photons, no heat transfer and continued thermal
equilibrium.
4) If the system is in
equilibrium, why is «forcing «necessary to raise
temperature, in order to
achieve equilibrium?