Admitting That The Refraction Increases In The
Same Ratio As That Of The Atmosphere At A Mean State Of Temperature The
Horizontal Refraction Will Be 47 Degrees 22 Seconds.
But the diameter of
the sun, measured immediately after the observation, was only 27 minutes
7 seconds, which shows an increase of refraction at the lower limb of 3
minutes 29 seconds.
The horizontal refraction calculated with this
difference and the above-mentioned ratio is 56 minutes 3 seconds at the
temperature minus 45.5 degrees. So that in the parallel 68 degrees 42
minutes where, if there is no refraction, the sun would be invisible for
thirty-four days, his upper limb with the refraction 56 minutes 3 seconds
is in fact above the horizon at every noon.
The wind was from the westward a moderate breeze and the air perfectly
clear. January 1st, 1821. Observed meridian altitude of sun lower limb 2
degrees 35 minutes 20 seconds, sun apparent diameter 29 degrees 20
minutes. For apparent altitude 2 degrees 35 minutes 20 seconds the mean
refraction is 16 minutes 5 seconds (Mackay's Tables) and the true, found
as detailed above, is 20 minutes 8 seconds which, increasing in the same
ratio as that of the atmosphere at a mean state of temperature, is 41
minutes 19 seconds at the horizon. But the difference of refraction at
the upper and lower limbs increasing also in that ratio gives 55 minutes
16 seconds for the horizontal refraction. Temperature of the air minus 41
degrees.
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