Exponential functions 31
decay curve over the first 6seconds. From the
graph, find (a) the voltage after 3.4s, and (b) the
time when the voltage is 150V.A table of values is drawn up as shown below.
t 0 1 2 3e−t(^3) 1.00 0.7165 0.5134 0.3679
v=250e
−t
(^3) 250.0 179.1 128.4 91.97
t 4 5 6
e
−t
(^3) 0.2636 0.1889 0.1353
v=250e
−t
(^3) 65.90 47.22 33.83
The natural decay curve ofv=250e
−t
(^3) is shown in
Fig. 4.4.
250
200
Voltage
v
(volts)
Time t(seconds)
150
100
80
50
0 1 1.5 2 3 3.4 4 5 6
y 5 250e
t
(^23)
Figure 4.4
From the graph:
(a) when timet=3.4s, voltagev=80Vand
(b) when voltagev=150V, timet=1.5s.
Now try the following exercise
Exercise 16 Further problemson
exponential graphs
- Plot a graph of y=3e^0.^2 x over the range
x=−3tox=3. Hence determine the value
ofywhenx= 1 .4 and the value ofxwhen
y= 4 .5. [3.95, 2.05]- Plot a graph of y=^12 e−^1.^5 x over a range
x=− 1 .5tox= 1 .5 and hence determine the
value ofywhenx=− 0 .8 and the value ofx
wheny= 3 .5. [1.65,−1.30] - In a chemical reaction the amount of starting
materialCcm^3 left aftertminutes is given by
C=40e−^0.^006 t.PlotagraphofCagainsttand
determine (a) the concentrationCafter 1 hour,
and (b) the time taken for the concentration to
decrease by half.
[(a) 28cm^3 (b) 116min] - The rate at which a body cools is given by
θ=250e−^0.^05 twhere the excess of tempera-
ture of a body above its surroundings at
timetminutes isθ◦C. Plot a graph showing
the natural decay curve for the firsthour of
cooling. Hence determine (a) the temperature
after 25 minutes, and (b) the time when the
temperature is 195◦C.
[(a) 70◦C(b)5min]
4.4 Napierian logarithms
Logarithms having a base of ‘e’ are calledhyperbolic,
Napierianornatural logarithmsand the Napierian
logarithm ofxis written as logex, or more commonly
as lnx. Logarithms were invented by John Napier, a
Scotsman (1550–1617).
The most common method of evaluating a Napierian
logarithmisbyascientificnotationcalculator.Useyour
calculator to check the following values:ln4. 328 = 1. 46510554 ...
= 1. 4651 ,correct to 4 decimal places
ln1. 812 = 0. 59443 ,correct to 5 significant figures
ln1= 0
ln527= 6. 2672 ,correct to 5 significant figures
ln0. 17 =− 1. 772 ,correct to 4 significant figures
ln0. 00042 =− 7. 77526 ,correct to 6 significant
figures
lne^3 = 3
lne^1 = 1