For each of the following, sketch a graph for an example of a function satisfying the given properties. (a) A function f which has three critical points and no local extrema. (b) A function g that is bounded above and below (in other words, there are some constants m and M where m < f(z) < M for all z), has a local maximum and local minimum, but no global extrema. (c) A function h where all local extrema are also global extrema.

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For each of the following, sketch a graph for an example of a function satisfying the given properties. (a) A function \( f \) which has three critical points and no local extrema. (b) A function \( g \) that is bounded above and below (in other words, there are some constants \( m \) and \( M \) where \( m \leq f(x) \leq M \) for all \( x \)), has a local maximum and local minimum, but no global extrema. (c) A function \( h \) where all local extrema are also global extrema. --- **Explanation for Sketches:** - For (a), you would sketch a graph where the derivative equals zero at three points but does not change sign, resulting in no local maxima or minima. An example is a polynomial that just touches the x-axis at these critical points but doesn't cross it. - For (b), sketch a function that oscillates within a bounded range, showing distinct local extrema but overall trends or repeats such that more extreme values exist elsewhere in the domain. A trigonometric function like a sine wave can demonstrate this within a limited domain. - For (c), every peak or valley in the sketch represents both a local and global extremum, indicating that the entire function lies between two critical values (a common example is a parabola opening upwards for a minimum and downwards for a maximum).