4.10 Stationary points 115
gradient decreases from positive values, through zero at A, to negative values. It
follows that the rate of change of the gradient is negative at A, and this is a sufficient
condition for the function to have maximum value at this point:
for a maximum: (4.21)
Similar considerations applied to the minimum at B show that
for a minimum: (4.22)
For the cubic shown in Figure 4.9,
y 1 = 1 x(x 1 − 1 3)
21 = 1 x
31 − 16 x
21 + 19 x
The point C, atx 1 = 12 in Figure 4.9, is an example of a point of inflection, at which the
gradientis a maximum or minimum, with The slope of the curve decreases
(becomes more negative) between A and C and increases between C and B, with
minimum value at C. This is an example of a simple point of inflection with
0 Exercises 78 – 82
When at a point then the nature of the point is determined by
the first nonzero higher derivative. Two examples are
(i) (4.23)
This is a point of inflection which is also a stationary point (but not a turning point),
and is the case discussed in Example 4.23.
(ii) (4.24)
dy
dx
dy
dx
dy
dx
dy
dx
=, 0000 =, =, ≠
223344dy
dx
dy
dx
dy
dx
=, 000 =, ≠
2233dy
dx
and
dy
dx
== 00
22dy
dx
dy
dx
≠= 00
22and
dy
dx
22= 0.
dy
dx
x
x
x
22612
01
=− 03
<=,
=,
when a maximum
when a miinimum
==,when a point of inflection
02 x
dy
dx
=−+=− −=312931 30xx xx x x= 1 = 3
2()() when or
dy
dx
dy
dx
=> 00
22and
dy
dx
dy
dx
=< 00
22and