8.8 *Elementary Transcendental Functions (Project) 537functions and derive their familiar properties as if we had never encountered
them before. We will use power series as our foundation.EXPONENTIAL AND LOGARITHM FUNCTIONS00 k
Definition 8.8.1 We define the function E: JR ---t JR by E(x) = L ~!.
k=O
(This series converges absolutely 't/x E R)Theorem 8.8.2 The function E : JR ---t JR has the following properties:
(a) E(O) = 1.
(b) 't/x E JR, E(x) > 0.
(c) 't/x E JR, E is differentiable at x, and E'(x) = E(x).(d) E is strictly increasing on RDefinition 8.8.3 e = E(l). Note that 2 < e < 3.
Remark 8.8.4 The series fore converges rapidly; in fact, le - f= k\ I < +.
k=O. n.n
(00 1 1 00 1 )
To prove this, show that L -k 1 < I L ( )k •
k=n+l · n. k=O n + 1Corollary 8.8.5 e is irrational.
Proof. For contradiction, suppose e is rational; say e = m/n where m, n E
n 1
N. Let Sn= L 1. Then, applying Remark 8.8.4,
k=O k.
0 < n!(e - Sn) < ~ < 1.
On the other hand, n!(e-Sn) = n! (~ - 1 - fr - ~ -if -· · · -~),which
must be a positive integer. In that case we would have a positive integer between
0 and 1 , a contradiction. Therefore, e is irrational. •
Theorem 8.8.6 The function E : JR ---t JR has the following properties:
(a) 't/x, y E JR, E(x)E(y) = E(x + y). [Use the Cauchy product formula.]
(b) 't/x,y E JR, E(x)/E(y) = E(x -y) and E(-x) = l/E(x).
(c) 't/x E JR, 'tin EN, E(nx) = [E(x)]n.