J. SOLUTIONS TO SELECTED EXERCISES 501which we also denote by b'Y. We have
b'Y ([(Bi, r)]) = 8 ~~ (s - dcone(S];) ([(B1, r)], "( (s)))= s-+oo lim (s - Jr^2 + s^2 - 2(3rs)
= (3r,
which tends to -oo as r -+ oo since f3 < 0. We leave it to the reader to
show that, for any a E ( 1T, 21T) and t > 0 sufficiently small depending on a,
we have for the ray 'Y in (IR^2 , 90: (t)) thatr-+oo lim b'Y (B1, r) = -oo.
SOLUTION TO EXERCISE 1.38. Consider the hinge with geodesic sides
"!Vi and ai and angle ei at the common vertex Xi. By (I.33), we havecos ei > cos ( 1T - c) = -cos c > -1.
Applying the hinge version of the Toponogov comparison theorem ( compar-
ing to Euclidean space and using the law of cosines), i.e., Theorem G.33(2),
we then have. (J.6) r^2 (x) < df + rf + 2diri cosc.
Let a = sin c, so that cos c = Jl - a^2 and
(J.7) r^2 (x) < df + rf + 2diri~·
Now by (J.7), inequality (I.37) follows from establishinga^2 c^2 ri ~ 2di ( Vl -a^2 c^2 - Vl -a^2 ).
Since ri ~^1 ~'° di, this is implied by2 ( Jl - a^2 c^2 - Jf=li2)
a^2 c(l - c)
which in turn follows from2: 1,
2(1+c) 2:22: J1-a2c2+J1-a2.
c
Inequality (I.37) has been proved.