Elementary Functions 245- d(z1,z2) = d(z2,z1).
- d(z1,z3) ~ d(z1,z2) + d(z2,z3), where equality holds only if z1, z2, z 3
are on the same line with z2 between z 1 and z 3.
The direct justification of the strict triangle inequality is somewhat in-
volved and will be postponed until a formula for the arc length in Poincare's
model is derived.
The presence of the ideal points z;, z~ in the distance formula is rather
inconvenient, and we proceed to obtain an alternative formula involving
only the points z1 and Zz. It is clear that d(z1, z2) depends only on z1 and
Zz since z; and z~ are determined uniquely by z1 and Zz.
From (5.11-1) we have
az1 + b
W1 = CZ1 + d ' Wz = CZz +dfrom which it follows that
and
z1 - z2 cz1 + d
=
z1 - Zz CZ1 + d
Hence(5.11-5)which shows that the expression J(z 1 -z 2 )/(z 1 - z 2 )J is invariant under the
group of transformations (5.11-1). In particular, for the points w 1 = i,
w 2 = ir, with r > 1 we get
so thatr=
Jz1 - z2l + Jz1 - z2l
Jz1 - z2l - lz1 - z2l
and in view of (5.11-3) and (5.11-4) we haved(- ) _ 1 Jz1 - z2 I + Jz1 - z2 J
z 1 ,z 2 - n I
lz1 - z2 - lz1 - z2 J
which is the required formula.
(5.11-6)