For example, because we know that the derivative ofx^2 is 2x, so we know that the
integral of 2xisx^2. Actually, because the derivative of a constant is zero the most general
integral of 2xisx^2 +CwhereCis anarbitrary constant of integration.We write
∫
2 xdx=x^2 +CSolution to review question 9.1.1A.Hopefully, this won’t give you much trouble now:(i)d
dx(x^3 )= 3 x^2(ii)d
dx(sin( 2 x))=2cos( 2 x)by the function of a function rule.(iii)d
dx( 2 e^3 x)= 2 e^3 x× 3 = 6 e^3 xB. Of course, these questions are not unrelated toA!
(i) Having just done it inA(i) we know that we can obtain 3x^2 by
differentiatingx^3 :d
dx(x^3 )= 3 x^2And in fact we get the same result if we add an arbitrary constant
Ctox^3 :d
dx(x^3 +C)= 3 x^2It follows that the most general integral of 3x^2 is:
∫
3 x^2 dx=x^3 +C(ii) A little more thought is needed to integrate cos 2x. Differentiating
sin 2xgives us 2 cos 2xnotcos 2x. To get the latter we should
differentiate^12 sin 2xd
dx( 1
2 sin 2x)
=1
22cos2x=cos 2xRemembering the arbitrary constant we thus have:
∫
cos 2xdx=1
2sin 2x+C(iii) Again, we have to fiddle with the multiplier of thee^3 x.Sinced
dx(e^3 x)= 3 e^3 x