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
Not exact matches
In addition to being a common household ingredient in certain parts of India and Bangledesh, it has also been used as a homeopathic remedy for stomach pain, a way to beat the summer heat (
when the bhut jolokia is eaten, the partaker will usually start to sweat quite a bit, which will ultimately lead to a
decrease in body
temperature).
This does two things: 1), prevents them from burning on top and being mushy on the inside, 2) keeps them from drying out like goods can made without traditional flours
when baked at high
temperatures, and 3) helps them continue baking at a continuously
decreasing temperature without overheating them so they firm up perfectly and turn golden in color.
Yet appetites
decrease when the
temperature increases.
However
when temperatures drop and daylight hours
decrease, it's time to make road safety your top priority.
Animal studies have demonstrated that the death rate among animals with disease
decreases when the body
temperature is elevated.
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.
In other words, the breast can increase in
temperature when the infant's body is cool and can
decrease in
temperature as the baby is warmed.
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.
When blood levels of the hormone rise, there is a modest
decrease in body
temperature and an increased tendency to sleep.
Similarly,
when temperatures are colder for several years, bee populations
decrease, but they increase again in hotter periods.
If the body
temperature drops, such as
when an animal goes into hibernation, TBG's affinity for thyroxine increases, resulting in a
decrease in the availability of the hormone and a
decrease in metabolism.
However,
when temperature is then
decreased, type - I collagen remains a fibrillar hydrogel, whereas CMA will disassemble into triple helices or short oligomers and return to a suspension.
However,
when buried at 1.1 inch or more below ground, butterflies survived 75 percent to 100 percent of the time, as the
temperature and the amount of heat they were exposed to
decreased, Thom said.
«Periods of very intense North Atlantic circulation and higher Northern Hemisphere
temperatures increased the preservation of microfossils in the sediment cores, whereas those with slower circulation,
when the study site was primarily influenced from the south, were linked with
decreased carbonate ion concentrations at our core site which led to partial dissolution,» said co-author Dr Luke Skinner, also from Cambridge's Department of Earth Sciences.
The experimental results show the
decreasing electron
temperature along the expansion, following a near perfect adiabatic expansion of an electron gas
when electric fields are removed from the system.
However,
when these
temperature gradients
decrease in just the right way, a weakened «double peak» jet stream arises with the strongest jet stream winds located to the north and south of the mid-latitudes.
For example, the levels of flavonols
decreased in Red Baron onions from 2010, the year with the lowest
temperatures, but increased in 2011 and 2014
when temperatures were higher and rainfall was down.
They also determined that CNFs could increase shelf life of ice cream, or at least
decrease its sensitivity to
temperature changes that occur
when moved to and from the freezer.
While the overlap during deglaciations is large (which makes it near impossible to make any estimates of relative forcings), during the start of the last ice age, there was no overlap: CO2 started to
decrease (some 40 - 50 ppmv)
when the
temperature was already near it's minimum.
Hence,
when the air
temperature decreases, ice and snow fields grow, and this continues until an equilibrium is reached.
When water used as a coolant is returned to the natural environment at a higher
temperature, the change in
temperature impacts organisms by (a)
decreasing oxygen supply, and (b) affecting ecosystem composition.
Kevin, even with greater evaporation,
when one considers all the energy fluxes into and out of the ocean cool skin layer, as long as the change in net energy flux causes the cool skin to warm, the
temperature gradient between the cool skin layer and the bulk ocean below it will
decrease.
When temperatures are
decreasing swap T - shirts and blouses for sweaters and long - sleeve tops.
When the
temperature consistently hovers around or below freezing, the rubber compounds in non-winter tires harden,
decreasing the tire's ability to grip the road.
However,
when fluid
temperatures become hotter than this, the life of your ATF will drastically
decrease.
Quality on both cars is excellent but attention to detail is heavy on the Zest, like the doors autolock even after you open them, audio system volume increases with speed (
decreases when you go into reverse), tachometer needle glows
when you reach the redline, double cranking doesn't happen with the fuel and
temperature meters blinking
when you try, etc..
When complemented by the precision of the engine's valvetrain, that separation leverages exhaust scavenging techniques to optimize gas flow, which
decreases exhaust gas
temperatures, improves turbine efficiency and reduces turbo lag.
Try a sunny spot (for daytime naps) or near a radiator,
when asleep a cat's body
temperature will
decrease a little which is why they pick a warm spot to snooze.
Water consumption in horses
decreases when the
temperature changes drastically from morning to evening.
That way, it will automatically stop or
decrease heating
when your dog has reached its normal
temperature.
When your dog is panting, you need to assess his condition and determine if he needs to visit the vet, or you only need to
decrease his
temperature and calm him down.
The exception to the norm of relatively cool
temperatures and high humidities occurs occasionally in the fall with Santa Ana wind conditions
when temperatures dramatically increase and humidities
decrease.
That would also imply that (T - T0 (t)-RRB- must be negative during the pre-900 period
when SLR = 0... would a plausible physical explanation be that the deep ocean and ice sheets are still responding somewhat to the post-glacial
temperature increase (eg, T - T0, 0 > 0), but that the faster components of SLR like the surface oceans and glaciers were actually responding to the
decrease in
temperature since the early Holocene?
If one postulates that the global average surface
temperature tracks the CO2 concentration in the atmosphere, possibly with some delay, then
when the CO2 concentration continues to rise monotonically but the global average surface
temperature shows fluctuations as a function of time with changes in slope (periods wherein it
decreases), then you must throw the postulate away.
re Gavin @ 223 I know what the mean global
temperature is (actually, I don't, see below) but the question was why is this a meaningful metric for looking at changes over time,
when you could get the same global mean from very different distributions of
temperature (eg increase the poles,
decrease the tropics) which would have very different interpretations of energy balance (at least if I am right that humidity matters)?
And no, there is no huge plunge in tropical or global surface air
temperatures when the ocean circulation spins up because there is a near - compensating
decrease in poleward heat transport via the atmospheric circulation.
Re my own comment # 369 above, a correction: Not only will the effective radiating
temperature of the «stratosphere» described there
decrease when opacity increases, as stated, but so will the skin
temperature, with both now located at higher altitudes.
While the overlap during deglaciations is large (which makes it near impossible to make any estimates of relative forcings), during the start of the last ice age, there was no overlap: CO2 started to
decrease (some 40 - 50 ppmv)
when the
temperature was already near it's minimum.
Re 9 wili — I know of a paper suggesting, as I recall, that enhanced «backradiation» (downward radiation reaching the surface emitted by the air / clouds) contributed more to Arctic amplification specifically in the cold part of the year (just to be clear, backradiation should generally increase with any warming (aside from greenhouse feedbacks) and more so with a warming due to an increase in the greenhouse effect (including feedbacks like water vapor and, if positive, clouds, though regional changes in water vapor and clouds can go against the global trend); otherwise it was always my understanding that the albedo feedback was key (while sea ice
decreases so far have been more a summer phenomenon (
when it would be warmer to begin with), the heat capacity of the sea prevents much
temperature response, but there is a greater build up of heat from the albedo feedback, and this is released in the cold part of the year
when ice forms later or would have formed or would have been thicker; the seasonal effect of reduced winter snow cover
decreasing at those latitudes which still recieve sunlight in the winter would not be so delayed).
This is a result of a weaker wind - driven ocean circulation,
when a large
decrease in heat transported to the deep ocean allows the surface ocean to warm quickly, and this in turn raises global surface
temperatures.
When AGW is added to the BNO (R) cycle, the length of lag to peak
temperatures increases significantly to more than a decade and potentially doubling, while the length of lag of minimum
temperatures behind minimum forcing
decreases significantly, potentially halving.
And the other sort of latent heat, a
decrease in atmospheric water vapour is also the stuff of fantasy requiring a change of 50,000 cu km
when the atmosphere only contains (and only can contain) ~ 13,000 cu km without crazy
temperature increases.
Glacial periods give way to interglacials on some occasions
when the Northern Hemisphere's summer solar insolation (the amount of solar radiation received by Earth's surface) increases alongside corresponding
decreases in ice volume and increases in
temperature and atmospheric carbon dioxide (CO2).
If you are a car owner and have a thermometer in your car, you may have noticed this, i.e., the
temperature generally rises
when you drive into an urban area and
decreases when you leave an urban area.
Global
temperatures tend to
decrease in the wake of La Niña, which occurs
when upwelling cold water off the coast of Peru spreads westward in the equatorial Pacific Ocean.
The study also contains a cautionary note: if effective heat capacity should prove to be less than estimated in the study, or the carbon dioxide degassing timescale proved longer, it could result in
temperature overshoots in which initial
temperature decreases are reversed
when carbon dioxide re-accumulates in the atmosphere.
How hurricanes develop also depends on how the local atmosphere responds to changes in local sea surface
temperatures, and this atmospheric response depends critically on the cause of the change.23, 24 For example, the atmosphere responds differently
when local sea surface
temperatures increase due to a local
decrease of particulate pollution that allows more sunlight through to warm the ocean, versus
when sea surface
temperatures increase more uniformly around the world due to increased amounts of human - caused heat - trapping gases.25, 26,27,28
Thus if we could stop today with all emissions, nature still would be a net sink, but the (average) sink rate would
decrease to zero over time
when the basic equilibrium setpoint is reached, about 290 ppmv for the current
temperature.
I just happen to have been plotting the delay and change in
temperature of just such an experiment and want to remind everyone that
when the knob is turned to «high» it usually makes no immediate difference, and that the efficiency of heat transfer often (but not always)
decreases with more applied power.