Not exact matches
The guy in the maple house even explained how they use a baraometer on the wall to get the barometric pressure so they know the
exact boiling
temperature of water for that given day.
The growth - recipe lists the
exact combination
of the
temperature, the amount
of water, CO2 and the intensity and color
of light that is given to the plant.
The smart thermometer tells you when the baby's
water is at optimal
temperature range and displays the
exact temperature of your baby's bath
water.
The whole CAGW — GHG scare is based on the obvious fallacy
of putting the effect before the cause.As a simple (not
exact) analogy controlling CO2 levels to control
temperature is like trying to lower the
temperature of an electric hot plate under a boiling pan
of water by capturing and sequestering the steam coming off the top.A corollory to this idea is that the whole idea
of a simple climate sensitivity to CO2 is nonsense and the sensitivity equation has no physical meaning unless you already know what the natural controls on energy inputs are already ie the extent
of the natural variability.
When I told him, why I wanted to know all this stuff, he answered that there should be nobody better positioned to know the
exact water temperatures at any depth in any part
of the oceans than the post-war US and russian sub fleets.
Willis Eschenbach says: August 14, 2011 at 9:58 am «My point is that the main issue is not the
exact value
of the feedback from clouds and from
water vapor, because those values are not what affect the operating point
temperature of the tropics.
My point is that the main issue is not the
exact value
of the feedback from clouds and from
water vapor, because those values are not what affect the operating point
temperature of the tropics.
These stem from a diversity
of site - specific conditions, including, but not limited to: local vegetation; presence
of building structures and contributions made by such structures involving energy use, heating and air conditioning, etc; exposure to winds, the wind velocities determined by climatic factors and also whether certain wind directions are more favored than others by terrain or the presence or absence thereof to bodies
of water; proximity to grass, asphalt, concrete or other material surfaces; the physical conditions
of the CRS itself which include: the
exact location
of the
temperature sensors within it, the degree
of unimpeded flow
of external air through the CRS, the character
of the paint used; the
exact height
of the instrument above the external surface (noting that when the ground is covered by 3 feet
of snow, the
temperature instrument is about 60 % closer to, or less than 2 feet, above an excellent radiating surface, much closer than it would be under snow - free conditions).