Not exact matches
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Amount of radiation that comes from X rays for medical imaging is
very small and generally safe.
The
amount of radiation used is
very small, and exposure lasts for a fraction
of a second.
Interestingly, the O2 molecule's absorption in the near - infrared, ~ 1 micron, is forbidden — it's a
very weak absorption (that actually might affect the absorption
of solar
radiation by a
small amount).
A huge laser delivers a large
amount of energy in a short time to heat the walls
of the larger chamber, and the
radiation emitted from those walls in turn drives the
small capsule to a
very small size, increasing the density
of the gases inside to much higher density than lead and heating it at the same time to
very high temperatures required for fusion to occur.
As far as water vapor in the tropics, they even say» In the humid equatorial regions, where there is so much water vapour in the air that the greenhouse effect is
very large, adding a
small additional
amount of CO2 or water vapour has only a
small direct impact on downward infrared
radiation.»
In the humid equatorial regions, where there is so much water vapour in the air that the greenhouse effect is
very large, adding a
small additional
amount of CO2 or water vapour has only a
small direct impact on downward infrared
radiation.
As reported by the IPCC in the Physical Science Basis, «In the humid equatorial regions, where there is so much water vapour in the air that the greenhouse effect is
very large, adding a
small additional
amount of CO2 or water vapour has only a
small direct impact on downward infrared
radiation.
The
small amount of solar energy absorbed by the Venus surface would
very easily exit the surface the next night by conduction (diffusion) and
radiation.