notes/education/math/Logarithms.md
2024-01-23 10:33:22 -07:00

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https://www.youtube.com/watch?v=sULa9Lc4pck
$$log_a(b) $$
Pronounced log *base* a, this function is used to figure out what exponent you need to raise $a$ to to get $b$.
$log_ab = c$ can be rewritten as $a^c = b$.
$$ 5^{log_5^{(x+2)}}=x+2 $$
By default, $log$ refers to $log_{10}$. $ln$ is shorthand for $log_e$.
$$ \sqrt{x} = x^{1/2} $$
To get the reciprocal of a value, change the sign of the exponent.
$$ x^{-1} = \frac{1}{x} $$
## Domain
There are 3 places you need to worry about domain.
- You can't divide by 0
- You can't take the square root of a negative without complex numbers
- You cannot take the $log$ of a zero, or a negative number.
- There's no way to raise a number to an exponent and have it equal zero, or be a negative number.
- This can be used to help solve inequalities, because you know an equation that's wrapped in a logarithm must be $> 0$.
### Finding the domain of added logarithms
$$ log(x+2) + log(2x-3) $$
With the above example, you can find the domain of each function separately, then find the overlap of valid numbers.
# Expanding logarithms
$$ log_b(x*y) = log_b x + log_b y $$
$$log_b(\frac{x}{y}) = log_b x - log_b y $$
Example Problem:
$$ log_5 z = 3 $$
$$ log_5 y = 2 $$$$log_5(yz) = log_5 y + log_5 z $$$$ 2 + 3 = 5 $$
Exponents can be moved to the front of a logarithm
$$ log_3 x^5 = 5*log_3 x $$
Roots are just the inverse, so:
$$ log_3 sqrt(x) = \frac{1}{2}*log_3x $$