Logarithmic Derivative of a Power Times a Cosine over a Radical

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Find the derivative of $fractional power times cosine over a radical$ .

How do we proceed?

This problem will be simpler if we take the logarithm first and then take the derivative.

How do we take the log of an expression like this:

We can use the product and quotient properties of logarithms:

How do we take the log of a radical?

We convert the radical to a power.

What power is needed here?

Rewrite the expression for y without the radical.

$fractional power in place of a radical$

Now apply these ideas to express ln(y).

How can we simplify this?

We can use the fact that the log of a quantity raised to a power equals the power times the log of the quantity:
general log of a power

Do that.

Finally, we are ready to take the derivative. What rules of differentiation do we need?

The Chain Rule and the derivative of the natural logarithm:

Set up the differentiation.

Take the indicated derivatives.

We get

Simplify the second and third terms.

Solve for the derivative by multiplying each side by y.

Are we done?

No, we usually replace y by its equivalent from the original problem.

Do that.

To check this result qualitatively, let’s plot the original function, y, for the interval

.
Later, we’ll determine the derivative at x = 1.0.
First plot y vs. x. Then check your plot by clicking “Next”.

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Determine y(1.0).

We get

Add the point at x = 1.0 to your diagram. Then check your plot by clicking “Next”.

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Add the tangent line at x = 1.0. Then check your plot by clicking “Next”.

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Using y(1.0), determine

We get

Is this consistent with the graph?

Yes, the slope in the diagram is negative and less steep than a slope of – 1.

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