Derivatives Practice Flashcards
The following diagram shows part of the graph of the function f(x) = 2x2. The line T is the tangent to the graph of f at x = 1.
- Show that the equation of T is y = 4x – 2.
- Find the x-intercept of T.
Identify the two points of inflexion by looking at the graph.
Inflection is where smiley faces turn to frowny faces and vice-versa. This happens at B and D.
Find f’(x).
Write down the x-intercepts of the graph of the derivative function, f.
The x-intercepts of any graph are where y=0. So it is asking for the all the places in which f’(x)=0. We know that f’(x)=0 happens at local maxima and minima. Looking at the graph of f, I can see that this happens at x=-3, x=0, and x=2.
Write down all values of x for which f’(x) is positive.
At point D on the graph of f, the x-coordinate is –0.5. Explain why f′′(x) < 0 at D.
When we look at the point on the graph where the x-coordinate is -0.5, it occurs within a frowny face. This means at this point the function is concave down. And the intervals on which a function is concave down are the same ones in which f’‘(x) is negative. Therefore f’’(-0.5) < 0.
If it’s a maximum, it must be at the top of a frowny face, which means the function is concave down at that point. We just check that f’‘(B) < 0.
We know that A and B are critical/stationary points. This means the derivative of the function at these points has to be zero. Now you just solve f’(A)=0. (You could also solve f’(B)=0, but B looks more annoying.)
