Mechanical Engineering Principles

(Dana P.) #1
TORQUE 117

efficiency of the motor, (b) the speed of the
driven pulley wheel.

(a) From above, power output from motor
=(F 2 −F 1 )rxωx
Force F 2 = 400 N and F 1 = 50 N, hence
(F 2 −F 1 )=350 N,

radiusrx=

500
2

=250 mm= 0 .25 m

and angular velocity,

ωx=

1150 × 2 π
60

rad/s

Hence power output from motor
=(F 2 −F 1 )rxωx

=( 350 )( 0. 25 )

(
1150 × 2 π
60

)
= 10 .54 kW

Power input=15 kW
Hence,efficiency of the motor

=

power output
power input

=

10. 54
15

× 100 = 70 .27%

(b) From above,


rx
ry

=

ny
nx
from which,speed of driven pulley wheels,

ny=

nxrx
ry

=

1150 × 0. 25
0. 750
2

=767 rev/min

Problem 19. A crane lifts a load of mass 5
tonne to a height of 25 m. If the overall
efficiency of the crane is 65% and the input
power to the hauling motor is 100 kW,
determine how long the lifting operation
takes.

The increase in potential energy is the work done
and is given by mgh (see Chapter 14), where mass,
m= 5 t =5000 kg,g = 9 .81 m/s^2 and height
h=25 m.

Hence, work done=mgh=( 5000 )( 9. 81 )( 25 )
= 1 .226 MJ.

Input power=100 kW=100000 W

Efficiency=

output power
input power

× 100

hence 65 =

output power
100000

× 100

from which, output power

=

65
100

× 100000 =65000 W=

work done
time taken
Thus,time taken for lifting operation

=

work done
output power

=

1. 226 × 106 J
65000 W

= 18 .86 s

Problem 20. The tool of a shaping machine
has a mean cutting speed of 250 mm/s and
the average cutting force on the tool in a
certain shaping operation is 1.2 kN. If the
power input to the motor driving the
machine is 0.75 kW, determine the overall
efficiency of the machine.

Velocity,v = 250 mm/s = 0 .25 m/s and force
F= 1 .2kN=1200 N
From Chapter 14, power output required at the cut-
ting tool (i.e. power output),
P=force×velocity=1200 N× 0 .25 m/s.
=300 W
Power input= 0 .75 kW=750 W
Hence,efficiency of the machine

=

output power
input power

× 100

=

300
750

× 100 =40%

Problem 21. Calculate the input power of
the motor driving a train at a constant speed
of 72 km/h on a level track, if the efficiency
of the motor is 80% and the resistance due to
frictionis20kN.

Force resisting motion=20 kN=20000 N and

velocity=72 km/h=

72
3. 6

=20 m/s
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