. Neglecting again n in the denominator, we have:
(n, - ny) = T ctn (2), (119)
or with (111),
Q ;
a-1l &-l
T=-—— ten (2), A - T ) (120)
o
and with the notation of formula (115),
a-l a-1 : :
T" = À tan (3), (an - T ) | (121)
The refraction for an aerial observer follows, from (116):
u a-l | \
a = A tan (2), 5. om (122)
a(T,-T ) p
As mentioned on page 64, « becomes astronomical refraction (A,) for &ll points
Outside the effective atmosphere for which To = 0. Consequently (121) reduces
for T = 0 to:
p
A% = À tan (z), 7l (125)
Introducing (125) into (115) we obtain:
A D
At = Al > À tan (2) + (124)
& &
a(T -T )
a p
: qa. 7°
"oo AM - 8 p
As BAM 11 - (125).
ar him -p
a a p
whereby for precision WOrk M^, can be computed from (9T).
Refraction can now be taken into consideration by computing either A or
(z - A) as required in formula (90).
68
mum C ERE
ms! : EN
