Second Order Derivatives (DP IB Applications & Interpretation (AI)): Revision Note

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Paul

Last updated

3 December 2024

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Second Order Derivatives

What is the second order derivative of a function?

If you differentiate the derivative of a function (i.e. differentiate the function a second time) you get the second order derivative of the function
There are two forms of notation for the second order derivative
- $y = f (x)$
- $\frac{d y}{d x} = f' (x)$ (First order derivative)
- $\frac{d^{2} y}{d x^{2}} = f'' (x)$ (Second order derivative)
Note the position of the superscript 2’s
- differentiating twice (so $d^{2}$ ) with respect to $x$ twice (so $x^{2}$ )
The second order derivative can be referred to simply as the second derivative
- Similarly, the first order derivative can be just the first derivative
A first order derivative is the rate of change of a function
- a second order derivative is the rate of change of the rate of change of a function
  - i.e. the rate of change of the function’s gradient
Second order derivatives can be used to
- test for local minimum and maximum points
- help determine the nature of stationary points
- determine the concavity of a function
- graph derivatives

How do I find a second order derivative of a function?

By differentiating twice!
This may involve
- rewriting fractions, roots, etc as negative and/or fractional powers
- differentiating trigonometric functions, exponentials and logarithms
- using chain rule
- using product or quotient rule

Examiner Tips and Tricks

Negative and/or fractional powers can cause problems when finding second derivatives so work carefully through each term

Worked Example

Given that $f (x) = 4 - \sqrt{x} + \frac{3}{\sqrt{x}}$

a) Find $f' (x)$ and $f'' (x)$ .

5-2-3-ib-sl-aa-only-second-order-we-soltn-a

b) Evaluate $f'' (3)$ .
Give your answer in the form $a \sqrt{b}$ , where $b$ is an integer and $a$ is a rational number.

5-2-3-ib-sl-aa-only-second-order-we-soltn-b

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Second Order Derivatives (DP IB Applications & Interpretation (AI)): Revision Note

Second Order Derivatives

What is the second order derivative of a function?

How do I find a second order derivative of a function?

You've read 0 of your 5 free revision notes this week

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