Applying the result a number of times we see for example that
∫
3 f(x)dx=∫
(f (x)+f(x)+f(x))dx=∫
f(x)dx+∫
f(x)dx+∫
f(x)dx= 3∫
f(x)dxand in general for any numerical multiplierk:
∫
kf (x )dx=k∫
f(x)dxIn general, ifkandlare constants then we have
∫
(kf+lg)dx=k∫
fdx+l∫
gdxFor this reason integration is called alinear operation. This rule enables us to integrate
any linear combination of standard integrals, including all polynomials, for example.
Solution to review question 9.1.3
The given function is a linear combination of standard integrals. We can
therefore use the linearity of the integral operation:
∫ (
2 x^2 +3
x^2+ 4√
x− 2 ex+4sinx)
dx= 2∫
x^2 dx+ 3∫
dx
x^2+ 4∫
x^1 /^2 dx− 2∫
exdx+ 4∫
sinxdx=2 x^3
3−3
x+8 x^3 /^2
3− 2 ex−4cosx+CNote that we only need one arbitrary constant for the overall integral and
not one for each of the ‘summands’.9.2.4 Simplifying the integrand
➤
251 281➤When faced with a new integral, the first thing to do, after checking whether it is a standard
integral, is to see if it is in the most convenient form for integration. Thus, in the integral∫
f(x)dx, we have two things to play with:- the integrandf(x)
- the variablex