156 MECHANICAL ENGINEERING PRINCIPLESwork done=^12 ×base×height=^12 × 30 × 10 −^3 m×6N= 90 × 10 −^3 J= 0 .09 J(b) Work done in extending the spring from
30 mm to 50 mm is given by areaABCEof
Figure 14.6, i.e.
work done=areaABCD+areaADE=( 20 × 10 −^3 m×6N)+^12 ( 20 × 10 −^3 m)(4N)= 0 .12 J+ 0 .04 J= 0 .16 JProblem 6. Calculate the work done when
a mass of 20 kg is lifted vertically through a
distance of 5.0 m. Assume that the
acceleration due to gravity is 9.81 m/s^2.The force to be overcome when lifting a mass of
20 kg vertically upwards is mg,
i.e. 20× 9. 81 = 196 .2 N (see Chapter 13).work done=force×distance= 196. 2 × 5. 0 =981 JProblem 7. Water is pumped vertically
upwards through a distance of 50.0 m and
the work done is 294.3 kJ. Determine the
number of litres of water pumped. (1 litre of
water has a mass of 1 kg).Work done=force×distance,
i.e. 2 94 300=force× 50. 0 ,from which force=2 94 300
50. 0=5886 NThe force to be overcome when lifting a mass
m kg vertically upwards is mg, i.e. (m× 9 .81) N
(see Chapter 13).
Thus 5886=m× 9. 81 , from which mass,m=5886
9. 81=600 kg.Since 1 litre of water has a mass of 1 kg,600 litres
of water are pumped.Problem 8. The force on a cutting tool of a
shaping machine varies over the length of
cut as follows:Distance (mm) 0 20 40 60 80 100
Force(kN) 6072655344 50Determine the work done as the tool moves
through a distance of 100 mm.The force/distance graph for the given data is shown
in Figure 14.7. The work done is given by the area
under the graph; the area may be determined by an
approximate method. Using the mid-ordinate rule,
with each strip of width 20 mm, mid-ordinatesy 1 ,
y 2 ,y 3 ,y 4 andy 5 are erected as shown, and each is
measured.Area under curve =(
width of
interval)(
sum of
mid-ordinate)=( 20 )( 69 + 69. 5 + 59 + 48+ 45. 5 )=( 20 )( 291 )70605040Force / kN 302010(^0204060)
Distance / mm
80 100
y^1
= 69
y^3
= 59
y^4
= 48
y^2
= 69.5
y^5
= 45.5
Figure 14.7