232 CHAPTER, 6 • COMPLEX INTEGRATIONTheorem 6.9 gives an important method for evaluating definite integrals
when the integrand is an analytic function in a simply connected domain. In
essence, it permits you to use all the rules of integration that you learned in
calculus. When the conditions of Theorem 6.9 are met, applying it is generally
much easier than parametrizing a contour.- EXAMPLE 6.17 Show that
l
dz.- , = l+i,
c 2z•where zi is the principal branch of the square root function and C is the line
segment joining 4 to 8 + 6i.S olutio n We showed in Chapter 3 that if F (z) = z1, then F' (z) = --1y-, where
2z2
the principal branch of the square root function is used in both the formulas for F
and F '. We note that C is contained in the simply connected domain D 4 ( 6 + 3i),
which is the open disk of radius 4 centered at the midpoint of the segment C.
Since f (z) = --1y-is analytic in D 4 (6 + 3i), Theorem 6.9 guarantees that
2.~
- EXAMPLE 6.18 Show that fccosz dz= - sinl +isinhl, where C is the
line segment between 1 and i.
Solutio n An antiderivat ive of J(z) = cosz is F(z) = sinz. Because Fis
entire, we use Theorem 6.9 to conclude thatfa cosz dz= Ji cosz dz= sin i - sin 1 =- sin1 + isinb i.