Engineering Fundamentals: An Introduction to Engineering, 4th ed.c

18.6 Calculus 619

Example 18.10 Find the derivative off(x) (x

3

 10 x

2

8)

4

.

We use rule 9, from Table 18.6 to solve this problem as shown. For

this problem,u(x

3

 10 x

2

8).

Example 18.11 Find the derivative off(x) lnx

3

 10 x

2

 8 .

We use rule 10, f¿(x)g¿(x)/g(x), from Table 18.6 to solve this problem as shown. For

this problem,g(x) x

3

 10 x

2

8.

Example 18.12 Find the derivative off(x) e

(x^3  10 x^2 8)

.

We use rule 11,f¿(x) g¿(x) #e

g(x)

, from Table 18.6 to solve this problem as shown. For

this problem,g(x) x

3

 10 x

2

8.

Integral Calculus

Integral calculus plays a vital role in the formulation and solution of engineering problems. To

demonstrate the role of integrals, consider the following examples.

Example 18.13 Recall in Chapter 7, we discussed a property of an area known as the second moment of area.

The second moment of area, also known as the area moment of inertia, is an important prop-

erty of an area that provides information on how hard it is to bend something and therefore plays

f

œ

1 x 2  13 x

2

 20 x 2 e

1 x 3  10 x 2  82

f

œ

1 x 2 

13 x

2

 20 x 2

x

3

 10 x

2

 8

f

œ

1 x 2  41 x

3

 10 x

2

 82

3

13 x

2

 20 x 2

f

œ

1 x 2 n#u

n (^1) #du
dx
,
A
y
y
x
■Figure 18.17
Small area element located
at a distancexfrom the
y—yaxis.
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