Difference between revisions of "Math 22 Extrema and First Derivative Test"

Relative Extrema

 Let ${\displaystyle f}$ be a function defined at ${\displaystyle c}$.
 1. ${\displaystyle f(c)}$ is a relative maximum of ${\displaystyle f}$ when there exists an interval ${\displaystyle (a,b)}$ containing ${\displaystyle c}$ such that ${\displaystyle f(x)\leq f(c)}$ for all ${\displaystyle x}$ in ${\displaystyle (a,b)}$.
 2. ${\displaystyle f(c)}$ is a relative minimum of ${\displaystyle f}$ when there exists an interval ${\displaystyle (a,b)}$ containing ${\displaystyle c}$ such that ${\displaystyle f(x)\geq f(c)}$ for all ${\displaystyle x}$ in ${\displaystyle (a,b)}$.

If ${\displaystyle f}$ has a relative minimum or relative maximum at ${\displaystyle x=c}$, then ${\displaystyle c}$ is a critical number of ${\displaystyle f}$. That is, either ${\displaystyle f'(c)=0}$ or ${\displaystyle f'(c)}$ is undefined.

Relative extrema must occur at critical numbers as shown in picture below.

The First-Derivative Test

 Let ${\displaystyle f}$ be continuous on the interval ${\displaystyle (a,b)}$ in which ${\displaystyle c}$ is the only critical number, then
 
 On the interval ${\displaystyle (a,b)}$, if ${\displaystyle f'(x)}$ is negative to the left of ${\displaystyle x=c}$ and positive to the right of ${\displaystyle x=c}$, then ${\displaystyle f(c)}$ is a relative minimum.
 
 On the interval ${\displaystyle (a,b)}$, if ${\displaystyle f'(x)}$ is positive to the left of ${\displaystyle x=c}$ and negative to the right of ${\displaystyle x=c}$, then ${\displaystyle f(c)}$ is a relative maximum.

Absolute Extrema

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