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Maximum/Minimum
A function f has an absolute maximum at c if f(c) >= f(x). We call f(c) the maximum value of f.
The absolute maximum is the largest possible output value for a function.
A function f has an absolute minimum at c if f(c) <= f(x). f(c) is the absolute minimum value of f.
The absolute minimum is the smallest possible output value for a function.
- Where the derivative of a function is zero, there is either a peak or a trough.
Critical Numbers
A number is considered critical if the output of a function exists and \dfrac{d}{dx} is zero or undefined.
Local Max/Min
A local max/min is a peak or trough at any point along the graph.
Extreme Value Theorem
If f is a continuous function in a closed interval [a, b], then f achieves both an absolute maximum and an absolute minimum in [a, b]. Furthermore, the absolute extrema occur at a or at b or at a critical number between a and b.
Example
Find the absolute maximum and absolute minimum of the function
f(x) = x^2 -3x + 2on the closed interval[0, 2]:
x=0andx=2are both critical numbers because they are endpoints. Endpoints are always critical numbers because\dfrac{d}{dx}is undefined.\dfrac{d}{dx} x^2 -3x + 2 = 2x -3- Setting the derivative to zero,
0 = 2x - 3 - Solving for x, we get
x = \dfrac{3}{2}. Three halves is a critical number because $