Not exact matches
Through a
thick cloud of cigarette smoke and after drinking Manhattans, Martinis and straight scotch like
water, Don would probably deliver a hypnotizing speech stating that the fundamental part of any marketing strategy is to communicate to potential consumers what you do, what you can offer, and why you are better than all the rest.
Early results show that as
water vapor increased,
thicker clouds would have reflected up to half of the sunlight back into space.
Temperatures at these vents can top 400 degrees Celsius and
thick plumes of iron and sulfur
cloud the permanently pitch - black
waters.
The oceans will boil away and the atmosphere will dry out as
water vapor leaks into space, and temperatures will soar past 700 degrees Fahrenheit, all of which will transform our planet into a Venusian hell - scape choked with
thick clouds of sulfur and carbon dioxide.
Water evaporating from the oceans may set off a runaway greenhouse effect that turns Earth into a damp version of Venus, wrapped permanently in a
thick, white blanket of
cloud.
Exoplanets with
thick cloud covers blocking the detection of
water and other substances may be less desirable targets for more extensive study.
The planet is covered with
thick white and yellowish
clouds made of sulfuric acid droplets, instead of
water.
Based on the available data, the astronomers concluded that the planet's atmosphere is either a thin but dense layer rich in
water steam or a
thick layer of high
clouds or hazes, similar to those seen in the atmospheres of Venus and Titan in the Solar System.
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).
Rather than break up low level
clouds, skeptics see the
water vapor adding to the low,
thick clouds (such as stratocumulus) which primarily reflect incoming solar radiation back into space.
But assuming one could cause there to be
clouds water 10 meters
thick or a thin fog of
water droplets.
The 12 - and 11 - µm ΔBT helps to distinguish between high,
thick clouds and high, thin
clouds by delineating
cloud phase (ice or liquid
water) and
cloud particle size (small or large).
Off the west coasts of the American continents in the trade - wind belts, upwelling of cold subsurface
water causes the overlying air to be cooled below its dew point (the air temperature below which
water vapour condenses as dew), with the consequent widespread formation of low,
thick clouds.
And seeing as this discussion has moved over to this article — even more important is the dependence of total optical thickness on
clouds, because they contain liquid
water, which is optically
thick.