TOTAL DIFFERENTIAL, RATES OF CHANGE AND SMALL CHANGES 351G
Since the height is increasing at 3 mm/s,i.e. 0.3 cm/s, thendh
dt=+ 0. 3and since the radius is decreasing at 2 mm/s,i.e. 0.2 cm/s, thendr
dt=− 0. 2HencedV
dt=(
2
3πrh)
(− 0 .2)+(
1
3πr^2)
(+ 0 .3)=− 0. 4
3πrh+ 0. 1 πr^2However, h= 3 .2 cm andr= 1 .5cm.HencedV
dt=− 0. 4
3π(1.5)(3.2)+(0.1)π(1.5)^2=− 2. 011 + 0. 707 =− 1 .304 cm^3 /sThus the rate of change of volume is 1.30 cm^3 /s
decreasing.Problem 6. The areaAof a triangle is given
byA=^12 acsinB, whereBis the angle between
sidesaandc.Ifais increasing at 0.4 units/s,c
is decreasing at 0.8 units/s andBis increasing at
0.2 units/s, find the rate of change of the area of
the triangle, correct to 3 significant figures, when
ais 3 units,cis 4 units andBisπ/6 radians.Using equation (2), the rate of change of area,dA
dt=∂A
∂ada
dt+∂A
∂cdc
dt+∂A
∂BdB
dtSince A=
1
2acsinB,∂A
∂a=1
2csinB,∂A
∂c=1
2asinBand∂A
∂B=1
2accosBda
dt= 0 .4 units/s,dc
dt=− 0 .8 units/sanddB
dt= 0 .2 units/sHencedA
dt=(
1
2csinB)
(0.4)+(
1
2asinB)
(− 0 .8)+(
1
2accosB)
(0.2)Whena=3,c=4 andB=π
6then:dA
dt=(
1
2(4) sinπ
6)
(0.4)+(
1
2(3) sinπ
6)
(− 0 .8)+(
1
2(3)(4) cosπ
6)
(0.2)= 0. 4 − 0. 6 + 1. 039 = 0 .839 units^2 /s, correct
to 3 significant figures.Problem 7. Determine the rate of increase of
diagonalACof the rectangular solid, shown in
Fig. 35.1, correct to 2 significant figures, if the
sidesx,yandzincrease at 6 mm/s, 5 mm/s and
4 mm/s when these three sides are 5 cm, 4 cm
and 3 cm respectively.y = 4 cm x = 5 cmBCbz = 3 cmAFigure 35.1DiagonalAB=√
(x^2 +y^2 )DiagonalAC=√
(BC^2 +AB^2 )=√[z^2 +{√
(x^2 +y^2 )}^2=√
(z^2 +x^2 +y^2 )LetAC=b, thenb=√
(x^2 +y^2 +z^2 )Using equation (2), the rate of change of diagonalb
is given by:db
dt=∂b
∂xdx
dt+∂b
∂ydy
dt+∂b
∂zdz
dtSinceb=√
(x^2 +y^2 +z^2 )∂b
∂x=1
2(x^2 +y^2 +z^2 )− 1(^2) (2x)=
x
√
(x^2 +y^2 +z^2 )