The radiative equilibrium temperature gradient (Manabe and Strickler 1964) is also unstable in the troposphere (
the temperature decreases with altitude), and convection sets in and takes over a significant amount of the vertical energy flow.
Since
the temperature decreases with altitude, water vaporized at the surface carries energy into the atmosphere where it condenses (aka rain drops) this releases the energy.
Every person that has ever flown in a jet plane knows that air pressure and air
temperature decreases with altitude, yet they can't grasp the elegant simplicity of this observational model in explaining the temperature profile from the tropopause to the near surface.
The region of the atmosphere in which
temperature decreases with altitude is the troposphere and contains 90 percent of the atmosphere.
«In the lower regions of the atmosphere (up to altitudes of approximately 40,000 feet [12,000 m]-RRB-,
temperature decreases with altitude at a fairly uniform rate.
When
temperature decreases with altitude that's gravity driven lapse rate... When temperature increases with altitude (very common this time of year where I live), why that's just weather / sarc
To me that looks as though K decreases with altitude z:
the temperature decreases with altitude.
In conclusion, in our opinion a full explanation about why answer (2)-LSB-(2)
The temperature decreases with the height because of the following two reasons.]
No heat flows in Fig. 1 in equilibrium yet
temperature decreases with increasing height according to all 3 ref.s I've cited w / the specific ref.s: «Please be specific» (a quote from my high school English teacher).
However, because the density and pressure decreases with altitude faster than the thermal energy of individual molecules increases, total
temperature decreases with altitude.
In the mesosphere,
the temperature decreases with height again, because there is very little ozone to warm up the air.
In atmosphere gas
temperature decreases with higher elevation *.
«The main hydrological features of the deep Mediterranean Sea are (a) high homeothermy from roughly 300 — 500 m to the bottom, and bottom temperatures of about 12.8 °C to 13.5 °C in the western basin and 13.5 °C to 15.5 °C in the eastern basin (i.e., there are no thermal boundaries, whereas in the Atlantic Ocean
the temperature decreases with depth)»
Temperature decreases with altitude, meaning that the air above is cooler than that below.
Since the effective radiative altitude is in the troposphere where
temperature decreases with altitude, the rate at which the greenhouse gases emit to space slows with increasing greenhouse gas concentrations.
The reason there are tropical glaciers at all is that
temperature decreases with altitude, as a consequence of the compressibility of air.
If
the temperature decreased with altitude, infrared radiation would at some point pass through a region of cooler water - gas, which would absorb the part of the spectrum responsible for the glowing effect, he explained.
These Equations, IF CORRECT, will predict the commencement of glaciation in Antarctica, and the progressive increase in Glaciation as Surface Pressures decrease, and Surface
Temperatures decrease with elapsed time in million year increments.
But other than that wouldn't be similar in terms of air temperature and air
temperature decreasing with higher elevation?
Wikipedia starts with «The dry adiabatic lapse rate (DALR) is the rate of
temperature decrease with height for a parcel of dry or unsaturated air rising under adiabatic conditions.»
I find no indication that the adiabatic lapse rates are anything more than maximum rates of
temperature decrease with altitude before convection will begin preventing any steeper temperature decline.
In the troposphere,
temperatures decrease with height at the environmental lapse rate we mentioned above, i.e., -6.5 °C per kilometre -LRB--3.5 °F per 1,000 feet).
Instead both density and
temperature decrease with elevation.
I've done that for a half dozen + major airports and generally find that
the temperatures decrease with distance from the airport.
This difference reflects the respective changes in the rate of
temperature decrease with altitude (or lapse rate), which is in turn influenced by the amount of moisture in the atmosphere.
[Also, the lapse rate only holds in part of the atmosphere... the troposphere... because the adiabatic lapse rate sets a stability limit on
the temperature decrease with height.
It has to do with the fact that in the tropics
the temperature decrease with height is expected to closely follow the moist adiabatic lapse rate.
As well, I am not familiar with the vertical structure of Arctic water, I would have assumed that water
temperature decreased with depth, and anything else would be unstable and correct itself relatively quickly.
Not exact matches
Upon completion of the test, the Christian was found to be listless,
with decreased heart rate, body
temperature, and brain function.
Take off foil, flush pork
with mustard sauce,
decrease the
temperature to 180 degrees Celsius and bake for another 20 min.
I've never tried making muffins
with this recipe, but definitely if you're making muffins the cook time should
decrease to maybe 20 - 25 mins at the same
temperature I believe (I'm estimating here since I've never made them before.
Natural
temperatures were also maintained
with no noticeable increase or
decrease in
temperatures as the flows passed monitoring sites.
Soaking of millet, soya bean, maize, sorghum, and mung bean at 92 degrees F for 24 hours
decreased the contents of phytic acid by 4 — 51 percent.43
With these same grains and beans, soaking at room
temperature for 24 hours reduced phytic acid levels by 16 — 21 percent.44 However, soaking of pounded maize for one hour at room
temperature already led to a reduction of phytic acid by 51 percent.45
Once the garlic is roasted,
decrease the oven
temperature to 120 ° C / 250 ° F (100 ° C / 210 ° F fan) and line a small baking tray
with a piece of baking paper.
Also, you might try
decreasing the
temperature of your oven a little the next time, that should help
with more even cooking.
Animal studies have demonstrated that the death rate among animals
with disease
decreases when the body
temperature is elevated.
If milk has been kept at room
temperature or in a cooler
with icepacks prior to being placed in the refrigerator, safe storage time may be
decreased.
If the milk has been stored at room
temperature, in a cooler
with icepacks, or in the refrigerator prior to being placed in the freezer, safe freezing time may be
decreased.
External factors — harsh
temperatures, air conditioning, heat (especially in winter months when we are cooped up indoors), exposure to the sun, showering too often, and soaps made
with strong chemicals —
decrease sebum production, as does aging.
Analgesics are used to relieve the pain associated
with teething and
decrease the
temperature.
For example, when the room
temperature was warmer (> 21 °C), fan use was associated
with a 94 %
decreased risk of SIDS (AOR, 0.06; 95 % CI, 0.01 - 0.52) compared
with no fan use.
The prone or side sleep position can increase the risk of rebreathing expired gases, resulting in hypercapnia and hypoxia.54, — , 57 The prone position also increases the risk of overheating by
decreasing the rate of heat loss and increasing body
temperature compared
with infants sleeping supine.58, 59 Recent evidence suggests that prone sleeping alters the autonomic control of the infant cardiovascular system during sleep, particularly at 2 to 3 months of age, 60 and can result in
decreased cerebral oxygenation.61 The prone position places infants at high risk of SIDS (odds ratio [OR]: 2.3 — 13.1).62, — , 66 However, recent studies have demonstrated that the SIDS risks associated
with side and prone position are similar in magnitude (OR: 2.0 and 2.6, respectively) 63 and that the population - attributable risk reported for side sleep position is higher than that for prone position.65, 67 Furthermore, the risk of SIDS is exceptionally high for infants who are placed on their side and found on their stomach (OR: 8.7).63 The side sleep position is inherently unstable, and the probability of an infant rolling to the prone position from the side sleep position is significantly greater than rolling prone from the back.65, 68 Infants who are unaccustomed to the prone position and are placed prone for sleep are also at greater risk than those usually placed prone (adjusted OR: 8.7 — 45.4).63, 69,70 Therefore, it is critically important that every caregiver use the supine sleep position for every sleep period.
An international team of scientists analysing data from over 190 countries found that every increase in
temperature of one degree Celsius was linked
with a
decrease in the alcohol - attributable fraction (AAF *) of cirrhosis of 0.3 %.
Above the 25 °C threshold, respiration rates
decreased with further increases in soil
temperature.»
As the globe continues to spin toward a future
with higher
temperatures, crop yields will likely
decrease if farmers do not adapt to new management or technology practices.
Perhaps strangest of all, its density rises as it cools, peaks at 4 °C and then
decreases, instead of
decreasing steadily
with falling
temperatures like most other liquids.
While the pattern for Central and Western Europe was one of a consistent increase in flood risk, the study also found that flood risk may actually
decrease with warmer
temperatures in some countries in Eastern Europe, but those results also show a high degree of uncertainty.
«At the same time, we'd like to develop the ability to process these materials at lower
temperatures and
with decreased amounts of harmful solvents.
In one experiment, rats received
temperature and barometric pressure information and were able to combine information
with the other rats to predict an increased or
decreased chance of rain.
A 1 - degree - Celsius increase in
temperature correlates
with a 10 percent
decrease in overall crop yield, said Fowler.