Not exact matches
«The
distribution of
water with depth could make a big difference in terms of how
much water is actually there.»
Cold -
water coral reefs, in contrast, are less known to the public, despite having a
much larger global
distribution than tropical reefs.
This gives us better insight into the
distribution of how
much methane (CH4), nitrogen (N2), carbon monoxide (CO), and
water (H2O) is on Pluto's surface.
Strauss also discusses the unequal
distribution of
water across the world — North America, for example, has one - third the population of Africa, yet people in North America use three times as
much water.
Accounting for the considerable disagreement among satellite - era observational datasets on the
distribution of snow
water equivalent, CanESM2 has too
much springtime snow cover over the Canadian land mass, reflecting a broader Northern Hemisphere positive bias.
And the simple equations for how
much water vapor is in the atmosphere as a function of temperature would be several percent, but, in addition, the
distribution of the storms that release the moisture is changing.
Because the incoming and the outgoing flows, warm and cold respectively, lie side ‐ by ‐ side between Greenland and Scandinavia, an asymmetry is induced in the
distribution of ice - cover on the Arctic Ocean; this is generally dense to the west of Fram Strait while, to the east of Spitzbergen,
much of the Barents Sea — at similar latitudes — remains ice ‐ free even in winter due the eastward flow of warm Atlantic
water.
You can assume that — you have no way of actually knowing or proving that other than a desire for it to be so since it supports the premise of the outcome, and a non-Gaussian
distribution pretty
much blows the whole calculation out of the
water.
Although satellites can used for example to obtain spatial
distribution of temperature, clouds,
water vapour, aerosols in the atmosphere it appears
much more difficult to measure the physical characteristics of the oceans for example the
distribution of the optical depth of the particles in the oceans.
On the game - changing side, blockchain technology can allow millions of energy devices (HVAC systems,
water heaters, electric vehicles, batteries, solar PV installations) to transact with each other at the
distribution edge while providing support to utilities and grid operators to integrate more utility - scale variable renewable energy capacity at
much lower cost.
The idea is that by using a cryptographically secured and totally decentralized authority that can work at the speed of a computer, we should be able to keep power
distribution,
water treatment, self - driving transportation, and
much more from ballooning beyond all practical limits as cities continue to grow.