Mechanical Engineering Principles

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92 MECHANICAL ENGINEERING PRINCIPLES

Problem 8. Determine the second moment
of area and radius of gyration about axisQQ
of the triangleBCDshown in Figure 7.13.

B

G G

C D

QQ

12.0 cm

8.0 cm6.0 cm

Figure 7.13

Using the parallel axis theorem:IQQ=IGG+AH^2 ,
whereIGGis the second moment of area about the
centroid of the triangle,


i.e.


bh^3
36

=

( 8. 0 )( 12. 0 )^3
36

=384 cm^4 ,

Ais the area of the triangle


=^12 bh=^12 ( 8. 0 )( 12. 0 )

=48 cm^2

andHis the distance between axesGGandQQ


= 6. 0 +

1
3

( 12. 0 )=10 cm

Hence the second moment of area about axisQQ,


IQQ= 384 +( 48 )( 10 )^2

=5184 cm^4

Radius of gyration,


kQQ=


IQQ
area

=

√(
5184
48

)

= 10 .4cm

Problem 9. Determine the second moment
of area and radius of gyration of the circle

shown in Figure 7.14 about axisYY.

YY

3.0 cm

GG

r= 2.0 cm

Figure 7.14

In Figure 7.14,

IGG=

πr^4
4

=

π
4

( 2. 0 )^4

= 4 πcm^4

Using the parallel axis theorem,

IYY=IGG+AH^2 ,

where H= 3. 0 + 2. 0 = 5 .0cm

Hence IYY= 4 π+[π( 2. 0 )^2 ]( 5. 0 )^2

= 4 π+l 00 π= 104 π=327 cm^4

Radius of gyration,

kYY=


IYY
area

=

√(
104 π
π( 2. 0 )^2

)
=


26

= 5 .10 cm

Problem 10. Determine the second moment
of area of an annular section, about its
centroidal axis. The outer diameter of the
annulus isD 2 and its inner diameter isD 1

Second moment of area of annulus about its
centroid,IXX=(IXXof outer circle about its
diameter)−(IXXof inner circle about its diameter)

=

πD 24
64


πD^41
64

from Table 7.1

i.e. IXX=

π
64

(D 24 −D^41 )
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