Chapter 3, Problem 60RE

To determine

To draw: The graph $f^{\prime }$.

Answer to Problem 60RE

Graph of $f^{\prime }$ from $f$.

  

Explanation of Solution

Given information:

Graph of $f$.

  

We know that $f^{\prime }\left(x\right)$ is the slope of the function $f\left(x\right)$ in a graph. The given graph has two vertical asymptotes then $f^{\prime }\left(x\right)$ must have two vertical asymptotes with the exact value.

From the left part of the graph has the slope which starts shallow and increases in a short interval as it moves towards the vertical asymptote. So the slope of $f\left(x\right)$ is positive and $f^{\prime }\left(x\right)$ should be above the $x-$ axis of the graph. $f^{\prime }\left(x\right)$ has to start very close to the $x-$ axis for the points with shallow slope and with increasing range because the slope is increasing.

The middle part of the graph would be always positive, therefore $f^{\prime }\left(x\right)$ would not be below the $x-$ axis. The slope is very steep and close to the left vertical asymptote in terms $f^{\prime }\left(x\right)$ would have larger range for the respective domain. The slopes will get shallower and the domain is closer to $0$ . Then $f^{\prime }\left(x\right)$ decreases and approaches $0$ when $x=0$ . The given graph increases then hence the derivative graph have to increase again. Therefore, I will create a parabolic shape in the middle for $f^{\prime }\left(x\right)$.

The right portion of the graph is increasing so the derivative of the right portion would be increasing and should be above the $x-$ axis. The slope starts very steep so the derivative should have larger range for the respective domains. The slope gets shallower and gets closer to $0$ . Therefore $f^{\prime }\left(x\right)$ has to be decreasing with positive range for the domain. $f^{\prime }\left(x\right)$ will never cross the $x-$ axis.