Sketching graph of f(x) from graph of f'(x)

  • Thread starter Thread starter CustardTheory
  • Start date Start date
  • Tags Tags
    Graph
CustardTheory
Messages
2
Reaction score
0
Hi all,

I understand that in the graph of f'(x), zeros and local extrema are local extrema and points of inflection, respectively, for f(x). The basic concept of checking direction and rough changes in slope to find concavity also makes sense to me.
However, I'm having a bit of a mental block trying to visualize f(x) from f'(x) when f'(x) goes off inflecting without crossing the x axis.

http://imageshack.us/a/img202/5001/captureipi.png

For example, in the above graph I understand what's happening at the first critical point and when h'(x) crosses the x axis, but I don't logically understand what's going on after the second zero. I can easily go through like a robot to find concavity via the second derivative, but I'd like to actually understand the logic behind what's happening here.
 
Last edited by a moderator:
Physics news on Phys.org
CustardTheory said:
]I can easily go through like a robot to find concavity via the second derivative, but I'd like to actually understand the logic behind what's happening here.

That essentially is the logic of what's happening here. Since the second derivative gives you concavity information, you should be able to grasp what's happening to f(x). Drawing graphs that satisfy the necessary f'(x) and f''(x) conditions should give you this intuition if you don't feel like you have it already. Just think about what happens when the concavity of the function changes while the first derivative remains positive. What should that look like?

If you want a more concretely physical way to imagine it, just think of the functions f(x), f'(x) and f''(x) representing position, velocity, and acceleration, respectively.
 
Ah ok. It finally clicked. I think my definition of concavity was just off.
I thought it needed to be a full U shape to be counted as concave up or concave down. Am I correct in saying that this doesn't need to be the case?
 
CustardTheory said:
Ah ok. It finally clicked. I think my definition of concavity was just off.
I thought it needed to be a full U shape to be counted as concave up or concave down. Am I correct in saying that this doesn't need to be the case?

Yes that is correct, one way to visualize it might be that positive or negative concavity at a point defines whether the function is "curving up" or "curving down," relative to the tangent line at that point. Whether the tangent line sits "below" or "on top" of the function, so to speak. At point where concavity changes (f''(x) = 0), the tangent line will be on top of the function to one side of x, and below on the other.

Quantitatively, of course, it's just a measure of the instantaneous rate of change of the slope of f(x).
 

Similar threads

MHB Is f(x)=ln(x)/x Increasing or Decreasing?
Replies
1
Views
2K
B Why is Big-O about how rapidly the Taylor graph approaches that of f(x)?
Replies
19
Views
3K
MHB 141.30 how many points of inflection will the graph of the function have
Replies
3
Views
1K
B Second derivatives and inflection points
Replies
5
Views
3K
MHB AP calculus exam tikx graph of e (tan x ) -2
Replies
4
Views
6K
MHB Is the Inflection Point at x = 7 Incorrect?
Replies
5
Views
2K
MHB Sketch Graph: Domain 0<x<12 | f' Increasing, f''<0
Replies
2
Views
2K
Understanding the graphical effect of f(x+a)
Replies
19
Views
2K
Graphing Derivatives: Concavity and Inflection Points
Replies
4
Views
2K
MHB -apc.2.1.06 crosses the x-axis at one point in the interval [0,1]
Replies
4
Views
1K

Hot Threads

Recent Insights

Back
Top