adbb286512fed3d4a61ce11188ba44829a41645e
1---
2geometry: margin=2cm
3<!-- columns: 2 -->
4graphics: yes
5tables: yes
6author: Andrew Lorimer
7classoption: twocolumn
8header-includes: \pagenumbering{gobble}
9---
10
11# Exponential and Index Functions
12
13## Index laws
14
15$a^m \times a^n = a^{m+n}$
16$a^m \div a^n = a^{m-n}4$
17$(a^m)^n = a^{_mn}$
18$(ab)^m = a^m b^m$
19${({a \over b})}^m = {a^m \over b^m}$
20
21## Fractional indices
22
23$^n\sqrt{x}=x^{1/n}$
24
25## Logarithms
26
27$$\log_b (x) = n \quad \operatorname{where} \hspace{0.5em} b^n=x$$
28
29## Using logs to solve index eq's
30
31Used for equations without common base exponent
32
33Or change base:
34$$\log_b c = {{\log_a c} \over {\log_a b}}$$
35
36If $a<1, \quad \log_{b} a < 0$ (flip inequality operator)
37
38## Exponential functions
39
40$e^x$ - natural exponential function
41
42
43$$\lim_{h \rightarrow 0} {{e^h-1} \over h}=1$$
44
45## Logarithm laws
46
47$\log_a(mn) = \log_am + \log_an$
48$\log_a({m \over n}) = \log_am - \log_an$
49$\log_a(m^p) = p\log_am$
50$\log_a(m^{-1}) = -\log_am$
51$\log_a1 = 0$ and $\log_aa = 1$
52
53## Inverse functions
54
55Inverse of $f: \mathbb{R} \rightarrow \mathbb{R}, f(x)=a^x$ is $f^{-1}: \mathbb{R}^+ \rightarrow \mathbb{R}, f^{-1}=log_ax$
56
57## Euler's number
58
59$$e= \lim_{n \rightarrow \infty} (1 + {1 \over n})^n$$