Using the product rule for derivatives

We use the product rule to differentiate the product of functions

We know how to use power rule to take the derivative of a power function, and now we’ll learn how to use product rule to take the derivative of a product.

How to apply the product rule to find the derivative of a product

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Finding the derivative of the product of functions

Example

Find the derivative of the function.

???y=(x^2)(6x^3)???

The two functions in this problem are ???x^2??? and ???6x^3???. It doesn’t matter which one we choose for ???f(x)??? and which one we choose for ???g(x)???, since the product rule just has us adding ???f(x)g’(x)??? and ???f’(x)g(x)???. We’ll get the correct answer either way, as long as we stay consistent.

Let’s choose ???f(x)=x^2??? and ???g(x)=6x^3???, and then list out these two functions, along with their derivatives.

???f(x)=x^2???

???f’(x)=2x???

and

???g(x)=6x^3???

???g’(x)=18x^2???

Once we’ve got these all listed out, we can plug them directly into the product rule formula.

???y'=f(x)g'(x)+f'(x)g(x)???

???y'=(x^2)(18x^2)+(2x)(6x^3)???

???y'=18x^4+12x^4???

???y'=30x^4???

We can use the power rule double-check the answer that we got in this last example. If, instead of using product rule, we had instead started the problem by multiplying out the function, we’d get

???h(x)=(x^2)(6x^3)???

???h(x)=6x^5???

Then, once the function is multiplied out, we can apply power rule to take the derivative.

???h'(x)=6(5)x^{5-1}???

???h'(x)=30x^4???

So we get the same answer both ways.

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