Example 13. (a) Find the
Taylor polynomial of degree n = 4 for ![[Graphics:tp13.txtgr1.gif]](tp13.txtgr1.gif){kind=small}
,
expanded about ![[Graphics:tp13.txtgr2.gif]](tp13.txtgr2.gif){kind=small}
.
First, find the derivatives of f(x).
Second, evaluate the derivatives of f(x) at x = 2, and obtain a
sequence of constants ![[Graphics:tp13.txtgr5.gif]](tp13.txtgr5.gif){kind=small}
.
Third, substitute the constants ![[Graphics:tp13.txtgr7.gif]](tp13.txtgr7.gif){kind=small}
in Taylor's formula.
![[Graphics:tp13.txtgr4.gif]](tp13.txtgr4.gif){kind=small}
![[Graphics:tp13.txtgr9.gif]](tp13.txtgr9.gif)
Example 13. (b) Find the Taylor polynomial of degree n = 10.
(c) John H. Mathews, 1998
![[Graphics:tp13.txtgr3.gif]](tp13.txtgr3.gif)
![[Graphics:tp13.txtgr6.gif]](tp13.txtgr6.gif)
![[Graphics:tp13.txtgr8.gif]](tp13.txtgr8.gif)
![[Graphics:tp13.txtgr10.gif]](tp13.txtgr10.gif)