Not exact matches
Expeller pressed oils just mean no hexane used in processing so don't be fooled by them as they still are
heated,
then put under
extreme pressure to release the oil.
The researchers
then estimated the relative contributions of
heat and cold, from moderate to
extreme temperatures.
The shock waves
then ripple through the surrounding plasma, producing
extreme heat.
Then, they calculated the total exposure to
extreme heat in «person - days,» by multiplying the number of
heat waves - days when temperatures reach at least 95 degrees - by the number of people who are projected to live in the areas where
extreme heat is occurring.
Expeller pressed oils just mean no hexane used in processing so don't be fooled by them as they still are
heated,
then put under
extreme pressure to release the oil.
The
extreme heat makes the blacktop / asphalt wear off on to the bottom of our shoes and feet and
then rubs off on to the flooring in our homes.
The pedal goes long after a few laps and the M5 starts to shimmy and dance as the braking performance is tested, but they're going through an
extreme and unrealistic regimen: Five fast laps with a half - hearted cool down lap, sit in the pits for three or four minutes soaking up all the
heat as drivers swap,
then repeat until the fuel tank is dry or the tires are worn out.
Given the hiatus the measurements shifted to deep ocean
heat,
then extreme events and some other aspect.
If humidity — the levels of water vapour in the air — go up with the thermometer,
then people caught in a zone of
extreme heat can not adjust body temperatures by perspiration.
But if, in addition, global warming increases the variance of regional temperatures,
then we increase the likelihood of
extreme heat waves by a lot.
In other words, the overall trend of US
extreme heat waves was a decrease from the 1930's to the ice age scare of the 1970's, and
then a return to levels still shy of those in the 1930's.
Summary of how they got to this finding: They use CMIP models which, if not outright flawed, have not proved their validity in estimated temperature levels in the 2030 to 2070 timeframe, are used as the basis for extrapolations that assert the creation of more and more 3 - sigma «
extreme events» of hot weather; this is despite the statistical contradiction and weak support for predicting significant increases in outlier events based on mean increases;
then, based on statistical correlations between mortality and
extreme heat events (ie
heat waves), temperature warming trends are conjured into an enlargement of the risks from
heat events; risks increase significantly only by ignoring obvious adjustments and mitigations any reasonable community or person would make to adapt to warmer weather.
Can we use such simple conceptual explanations for events such as the recent spate of
extreme rainfall and
heat waves
then?
If I understand you correctly,
then I think there's something to what you say, which boils down to this: we wouldn't even be talking about Moscow if it hadn't had such an
extreme heat wave.
The
extreme heat makes the blacktop / asphalt wear off on to the bottom of our shoes and feet and
then rubs off on to the flooring in our homes.