WORK, ENERGY AND POWER 165Determine the braking power required to
give this change of speed.Change in kinetic energy of car
=^12 mv^21 −^12 mv^22 ,where m=mass of car=600 kg,
v 1 =initial velocity=90 km/h=90
3. 6m/s=25 m/s,and v 2 =final velocity=54 km/h
=54
3. 6m/s=15 m/s.Hence, change in
kinetic energy=^12 m(v^21 −v^22 )=^12 ( 600 )( 252 − 152 )=120 000 J.Braking power=change in energy
time taken=120 000 J
15 s
=8000 W or 8kWNow try the following exercises
Exercise 71 Further problems on poten-
tial and kinetic energy(Assume the acceleration due to gravity,
g= 9 .81 m/s^2 )- An object of mass 400 g is thrown verti-
cally upwards and its maximum increase
in potential energy is 32.6 J. Determine
the maximum height reached, neglecting
air resistance. [8.31 m] - A ball bearing of mass 100 g rolls down
from the top of a chute of length 400 m
inclined at an angle of 30°to the horizon-
tal. Determine the decrease in potential
energy of the ball bearing as it reaches
the bottom of the chute. [196.2 J] - A vehicle of mass 800 kg is travelling at
54 km/h when its brakes are applied. Find
the kinetic energy lost when the car comes
to rest. [90 kJ]
4. Supplies of mass 300 kg are dropped
from a helicopter flying at an altitude of
60 m. Determine the potential energy of
the supplies relative to the ground at the
instant of release, and its kinetic energy
as it strikes the ground.
[176.6 kJ, 176.6 kJ]
5. A shell of mass 10 kg is fired verti-
cally upwards with an initial velocity
of 200 m/s. Determine its initial kinetic
energy and the maximum height reached,
correct to the nearest metre, neglecting air
resistance. [200 kJ, 2039 m]
6. The potential energy of a mass is
increased by 20.0 kJ when it is lifted
vertically through a height of 25.0 m. It
is now released and allowed to fall freely.
Neglecting air resistance, find its kinetic
energy and its velocity after it has fallen
10.0 m. [8 kJ, 14.0 m/s]
7. A piledriver of mass 400 kg falls freely
through a height of 1.2 m on to a pile
of mass 150 kg. Determine the velocity
with which the driver hits the pile. If,
at impact, 2.5 kJ of energy are lost due
to heat and sound, the remaining energy
being possessed by the pile and driver as
they are driven together into the ground
a distance of 150 mm, determine (a) the
common velocity after impact, (b) the
average resistance of the ground.
[4.85 m/s (a) 2.83 m/s (b) 14.68 kN]
14.5 Kinetic energy of rotation
Whenlinear motiontakes place,kinetic energy=∑
m2v^2 ,but whenrotational motiontakes place,kinetic energy=1
2∑
m(ωr)^2Sinceωis a constant,kinetic energy=ω^21
2∑
mr^2