When a pet's
internal temperature rises above 106 degrees F and climbs to (107 — 109), multiple organ dysfunction occurs and can be life threatening.
This can happen through the process of thermogenesis in your body, in which
your internal temperature rises and it's easier for fat to melt away.
In short, perspiration is the body's internal cooling system and since your body's
internal temperature rises during exercise, it automatically begins producing sweat in response to temperature changes with the purpose of avoiding the dangerous effects of elevated temperature on internal organs.
As
the internal temperature rises to a few million kelvins, deuterium (heavy hydrogen) is first destroyed.
When
the internal temperature rises, your baby is at risk for dehydration.
Not exact matches
All round us, tangibly and materially, the thinking envelope of the Earth — the Noosphere — is adding to its
internal fibers and tightening its network; and at the same time its
internal temperature is
rising, and with this its psychic potential.
All round us, tangibly and materially, the thinking envelope of the earth — the Noosphere — is adding to its
internal fibres and tightening its network; and at the same time its
internal temperature is
rising, and with this its psychic potential.
Check
internal temperature with an instant - read thermometer — it should be 170 degrees F. Remove chicken to your countertop and let rest 10 minutes — it should
rise internally to 180 — 182 degrees F. Cut and serve the chicken; garnish with more fresh basil and the roasted lemon wedges.
Since
internal temp will
rise by 5 to 10 degrees after it's been removed from the oven, it's important to pull it out before reaching 180 in the thigh (which is the
temperature the FDA approves).
Remove from oven and let rest for 10 minutes to allow the
internal temperature to
rise to 140 (we find this is the optimal
temperature for pork that is juicy and very slightly pink; if you are concerned, cook pork to 140 and it will
rise to 150).
Transfer the lamb to a cutting board and let it stand for 15 to 20 minutes (the
internal temperature should
rise to about 145 degrees F for medium).
Tent it with aluminum foil and let it stand for about 30 minutes (the
internal temperature will continue to
rise to about 195 degrees F., the optimal
temperature for pulled pork).
The
internal temperature of turkey will continue to
rise to about 180 °F.
Transfer skillet to oven and roast pork, basting occasionally, until
internal temperature reaches 140 °F for medium rare or 145 °F for medium, 10 to 13 minutes more (
temperature will
rise by about 10 degrees after cooking).
Use an
internal temperature probe to check doneness and remember to allow for a few degrees of
temperature rise during resting.
The
internal temperature of the roast will continue to
rise while the roast is resting.
(The
internal temperature will
rise 5 to 10 degrees while the turkey rests.)
Tent very loosely with foil; let rest at least 30 minutes (
internal temperature will
rise 5 to 10 degrees).
Especially important during exercise, sweating helps your body manage excess heat and keep your core
internal temperature from
rising too quickly or too high.
It also prevents
internal temperatures from
rising too high and damaging the engine.
Placing cold or ice water on a dog suffering from heat stroke can make blood vessels constrict, causing the
internal temperature to continue to
rise.
Within minutes, a car's
internal temperature can
rise to lethal levels, leaving any animal left inside to die a horrific death.
If a dog can not effectively expel heat, the
internal body
temperature begins to
rise.
If a dog can not effectively expel heat, their
internal body
temperature begins to
rise.
Extreme cold can cause the blood vessels to constrict, preventing the body's core from cooling and actually causing the
internal temperature to
rise further.
The «Observed
temperature»
rise since 1950 is given as 0.65 ± 0.05 C, while both NAT and
Internal Variability are shown as 0.0 ± 0.1 C.
All I can say is that my funny
internal feelings tell me that there is no hard data to show that average global
temperatures, in 2007, are
rising as fast as the GCMs predict.
After all, if average surface
temperature is 15 C, wouldn't you expect land and ocean below the surface to equilibrate at roughly that
temperature (with a slightly
rising gradient to account for the flow of Earth's
internal heat)?
No one doubts that there is a slow down of surface
temperature rise after the 1998 El Nino, which is probably an artefact due to
internal variability of one or the other kind..
If we had better sea level
rise data for the whole period, we might see that the heat storage curve into the ocean had a shape that better matched the simple function approximation than the land surface data does, or we might have better information on
internal climate modes that confused or delayed the
temperature response.
The coalition did, however, as the article reported, remove from an
internal report by the scientific advisory committee a section that said that «contrarian» theories of why global
temperatures appeared to be
rising «do not offer convincing arguments against the conventional model of greenhouse gas emission - induced climate change.»
Well it would have to be immune to a
temperature rise due to a uniform forcing, which could be satisfied if the induced forcing (radiative) was proportionate to a positive
temperature difference between an initiating region (where the
internal forcing would take place) and a responding region.
The 25 D - O events during the last glacial, where
temperatures rose and fell by 5 to 10 degrees C (10 - 15 degrees C for Greenland) within a span of decades that were «explained by
internal variability of the climate system alone ``, deemed global in scale, and they occurred without any changes in CO2 concentrations, which stayed steady at about 180 ppm throughout the warming and cooling.
15 years before the pause the
temperature rose 0.3 C per decade, not a peep from the skeptics on that
internal variation.
As for policy makers, they should be aware that once the recent phase of
internal variability flips — which we think is about now — global surface
temperatures will rapidly
rise.
The only meaning in a genuine change in the rate of warming is that the longer term trend provides a slight change in evidence for equilibrium climate sensitivity — perhaps there was more «
internal variability» associated with some of the late C20
temperature rise...
I tried to bring out the point about
internal cloud oscillations, in writing: «The ordinary least squares (OLS) regression approach used will, however, underestimate Y in the presence of fluctuations in surface
temperature that do not give
rise to changes in net radiative flux fitting the linear model.
Given the likelihood that
internal variability contributed to the slowing of global
temperature rise in the last decade, we expect that warming will resume in the next few years, consistent with predictions from near - term climate forecasts (Smith et al. 2007; Haines et al. 2009).
If your room is isolated from the environment, frictional dissipation of kinetic energy of wind (ultimately to
internal energy of the air) will lead to a
rise in room
temperature.
Although
temperature increases in 2009 and 2010, the lack of a clear increase in global surface
temperature between 1998 and 2008 (1), combined with
rising concentrations of atmospheric CO2 and other greenhouse gases, prompts some popular commentators (2, 3) to doubt the existing understanding of the relationship among radiative forcing,
internal variability, and global surface
temperature.
It is therefore a little strange that we were not being told by the IPCC... that some natural
internal fluctuation of the ocean... may have given
rise to much of the earlier upward trend of
temperature.
They do model
internal ocean - driven fluctuations around that trend, but if the
temperature rise stalls for any length of time, the major impact is that subsequently, the
temperature rise accelerates.
The issue is whether the global
temperature rise is externally driven or it is the result of
internal variations, and what the unit root test can tell us about this two questions.
In fact, the human body can
rise to an
internal temperature of more than 106 degrees Fahrenheit in less than 15 minutes.