Question

How do you differentiate `ln x^(1/3)`?

Answer 1

`1/(3x)`

Explanation:

There are two methods: one that simplifies the function first, and the other which doesn't.

Without simplifying the function:

`y=ln(x^(1/3))`

We will need to use the chain rule. Since:

`d/dxln(x)=1/x`

The chain rule tells us that:

`d/dxln(u)=1/u*(du)/dx`

Thus:

`dy/dx=1/x^(1/3)*d/dxx^(1/3)`

Use the power rule to find `d/dxx^(1/3)`:

`dy/dx=1/x^(1/3)*1/3x^(-2/3)`

Simplify:

`dy/dx=1/3*1/x^(1/3)*1/x^(2/3)`

`dy/dx=1/3*1/x^(3/3)`

`dy/dx=1/(3x)`

Alternatively, simplify first:

You may remember a rule of logarithms that states that:

`log(a^b)=b*log(a)`

Thus:

`ln(x^(1/3))=1/3*ln(x)`

So:

`y=1/3*ln(x)`

Now when differentiating, we won't have to use the chain rule, and the `1/3` is simply brought out of the differentiation:

`dy/dx=1/3*d/dxln(x)`

`dy/dx=1/3*1/x`

`dy/dx=1/(3x)`

Generalization:

This method can be applied to differentiating any function in the form:

`y=ln(x^a)`

Since `y=a*ln(x)`, we know that `dy/dx=a*1/x=a/x`.

This can also be proven using the power rule, but above way is simpler.