The higher thermal mass greenhouse would have a more
stable temperature range.
This special orbit will remain stable for decades, keeping TESS's sensitive cameras in a very
stable temperature range.
Not exact matches
Place the jar in a room / cupboard where there is a
stable temperature in a
range of 70F - 75F and leave your sourdough starter for 24h.
Recent experiments have demonstrated that colloidal particles decorated at two interaction sites display a remarkable propensity for self - organising into highly unusual structures that remain
stable over a broad
temperature range.
And the observed antiskyrmions are
stable at a wide
range of
temperatures, including room
temperature.
Ecologists can now combine classic
stable istopic tracers with any number of parameters, like
temperature range, salinity, or newly discovered isotopic tracers.
As long as the gold atoms, or cations, are stabilized in a single - site form configuration, irrespective of the type of support, the precious metal will be
stable and operate for many hours at a
range of practical
temperatures.
Therefore, as long as the overall composition of other Earth - like planets are the similar to ours, we would expect them to sport a carbon cycle (either organic or inorganic), also providing a
stable climate for them — as long as the planets remain within the
temperature range where the carbon cycle can work.
What's Next: The team, again integrating experiments and theory, are studying the
temperature range over which the two - layer ice is
stable and what happens when more water is added on top of the two - layer ice.
Researchers noted that the pigment, which was
stable in a
range of pH and
temperature conditions, might satisfy public demand for safe, natural alternatives to synthetic food dyes.
Its climate is tropical monsoon, with a
stable temperature within the
range of 21 °C to 32 °C.
Very rough real - time measurements / compilations of average
temperatures in the 20th century reveal very little change in 150 years — a one degree C. average
temperature range in 150 years is unusually
stable.
Temperature of the earth has been extremely
stable in a narrow
range for ten thousand years.
The
temperature during the past ten thousand years has been
stable in a narrow
range.
Human biology is remarkable; we maintain a relatively
stable core body
temperature over a wide
range of ambient
temperatures.
PS By «
stable» I mean that the global
temperature has been alternating between warm interglacials and cold glacial periods — but it is
stable in not going outside those
ranges.
This stability in TSI has 2 effects: (i) as you say it makes global average
temperatures remarkably
stable (but I suggest the
temperature stability is principally down to the TSI stability) and (ii) estimating the effect of a TSI forcing on global average
temperatures is difficult when you have only a 0.3 % forcing
range.
A straight logical proposition: tree
temperature measurements measure leaf
temperatures which have been shown by measurements to be
stable within a certain
range and not correlated strongly with ambient
temperature.
During the past 7000 years, CO2 did go up while
temperature was
stable in a narrow
range.
This is the powerful negative feedback to
temperature that has make the climate
temperature extremely
stable in a narrow
range for ten thousand years.
I have edition 1 of that fine text book and, for interested posters, the non-isothermal
stable equilibrium
temperature profile derived from maximization of entropy of the GHG - free adiabatic ideal gas column top post Fig. 1 derivation is in Chapter 4.4 pp.164 - 168 for realistic pressures (holds for ~ 80 % of pressure
range of earth's atmosphere).
What other forcing is
stable that could have regulated the
temperature of the earth in a narrow
range for ten thousand years?
The Azores have a very
stable daily
temperature range (10 degrees F) that annually slides within a narrow window.
Compare this
stable situation with the earth, with changing winds, variable angles, clouds folding and unfolding, differing atmosphere densities, ever - changing chemical interactions, wide -
ranging temperatures, and the like.
Measurement of CO2 concentration is always problematic; the «Standard Dry Air» SDA basis of measurement and comparison is at standard
temperature and pressure which is a non-existent parameter; and as we are seeing, CO2 is not a well - mixed gas at all and will be defined by, amongst other variables, SH, or absolute humidity; SH can vary from 0 to 5 % by volume of atmosphere; as the SH increases, the absolute amount of other gases, including CO2, decreases; to say therefore that atmospheric concentrations of CO2 have remained
stable and not been above 280ppm over the last 650my is fanciful; even if you assume past CO2 levels have not got above 280ppm the
range of variation within that limit has been greater than the current increase;
These products, typically sold to laboratories and a wide
range of medical facilities, are designed to contain chemicals or biological specimens at
stable, low
temperatures.
In other words, implying a
stable, peaceful, comfortable, adaptable
range gently bumping up and down throughout 11,000 years... then bottoming out at the Little Ice Age, only to rapidly reverse upward to cover roughly the same
temperature span, but in 1 / 100th the time — implying a volatile, un-natural, «alarming», and «un-adaptable» trend.
With all these positive feedbacks existing in the climate, how did
temperatures stay within a fairly
stable range in response to changes, as we see from the hockey stick?
If I remember correctly, models spin up to
stable values at different average surface
temperatures over a
range of ~ 4 C.