8.3 • IMPROPER INTEGRALS OF RATIONAL FUNCTIONS 307provided the limit exists. If f is defined for all real x, then the integral of f over
(-oo, oo) is defined by
J
oo f (x) dx = lim r
0
f (x) dx + lim rb f (x) dx,
-oo a--^00 Ja t>-oo}o(8-7)provided both limits exist. If the integral in Equation (8-7) exists, we can obtain
its value by taking a single limit:
(8-8)For some functions the limit on the right side of Equation (8-8) exists, but the
limit on the right side of Equation (8-7) doesn't exist.
•EXAMPLE 8.13 Jim J!Rxdx = lim [~
2- <-:l
2] = 0, but Equation (8-
R-oo R-oo
7) tells us that the improper integral of j(x) = x over (-00,00) doesn't exist.
Therefore, we can use Equation (8-8) to extend the notion of the value of an
improper integral, as Definition 8.2 indicates.
Definition 8.2: Cauchy principal valueLet f (x) be a continuous real-valued function for all x. The Cauchy principal
value (P.V.) of the integral J~ 00 f (x) dx is defined by
P.v. J
00f(x)dx= Jim JR f(x)dx,
- oo R-oo - R
provided the limit exists.Example 8.13 shows that P.V. J~ 00 x dx = 0.- EXAMPLE 8.14 The Cauchy principal value of J~ 00 ,,,2~ 1 dx is
P.V.
Joo l dx = lim JR l dx
_ 00 x^2 + 1 R~oo - R x^2 + 1
= lim [Arc tan R -Arc tan (-R)]
R-oo
'Tr -'Tr
= - - - ='Tr.
2 2