3.9 Derivatives of exponential and logarithmic functions (Page 3/6)

Calculus volume 1 Page 3 / 6

Proof

If $x > 0$ and $y = ln x,$ then $e^{y} = x .$ Differentiating both sides of this equation results in the equation

e^{y} \frac{d y}{d x} = 1 .

Solving for $\frac{d y}{d x}$ yields

\frac{d y}{d x} = \frac{1}{e^{y}} .

Finally, we substitute $x = e^{y}$ to obtain

\frac{d y}{d x} = \frac{1}{x} .

We may also derive this result by applying the inverse function theorem, as follows. Since $y = g (x) = ln x$ is the inverse of $f (x) = e^{x},$ by applying the inverse function theorem we have

\frac{d y}{d x} = \frac{1}{f^{'} (g (x))} = \frac{1}{e^{ln x}} = \frac{1}{x} .

Using this result and applying the chain rule to $h (x) = ln (g (x))$ yields

h^{'} (x) = \frac{1}{g (x)} g^{'} (x) .

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The graph of $y = ln x$ and its derivative $\frac{d y}{d x} = \frac{1}{x}$ are shown in [link] .

Graph of the function ln x along with its derivative 1/x. The function ln x is increasing on (0, + ∞). Its derivative is decreasing but greater than 0 on (0, + ∞). — $The function y = ln x$ is increasing on $(0, + \infty) .$ Its derivative $y' = \frac{1}{x}$ is greater than zero on $(0, + \infty) .$

Taking a derivative of a natural logarithm

Find the derivative of $f (x) = ln (x^{3} + 3 x - 4) .$

Use [link] directly.

\begin{matrix} f^{'} (x) & = \frac{1}{x^{3} + 3 x - 4} \cdot (3 x^{2} + 3) & Use g (x) = x^{3} + 3 x - 4 in h^{'} (x) = \frac{1}{g (x)} g^{'} (x) . \\ = \frac{3 x^{2} + 3}{x^{3} + 3 x - 4} & Rewrite. \end{matrix}

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Using properties of logarithms in a derivative

Find the derivative of $f (x) = ln (\frac{x^{2} sin x}{2 x + 1}) .$

At first glance, taking this derivative appears rather complicated. However, by using the properties of logarithms prior to finding the derivative, we can make the problem much simpler.

\begin{matrix} f (x) & = & ln (\frac{x^{2} sin x}{2 x + 1}) = 2 ln x + ln (sin x) - ln (2 x + 1) & Apply properties of logarithms. \\ f^{'} (x) & = & \frac{2}{x} + cot x - \frac{2}{2 x + 1} & Apply sum rule and h^{'} (x) = \frac{1}{g (x)} g^{'} (x) . \end{matrix}

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Differentiate: $f (x) = ln {(3 x + 2)}^{5} .$

$f^{'} (x) = \frac{15}{3 x + 2}$

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Now that we can differentiate the natural logarithmic function, we can use this result to find the derivatives of $y = l o g_{b} x$ and $y = b^{x}$ for $b > 0, b \neq 1 .$

Derivatives of general exponential and logarithmic functions

Let $b > 0, b \neq 1,$ and let $g (x)$ be a differentiable function.

If, $y = {log}_{b} x,$ then

$\frac{d y}{d x} = \frac{1}{x ln b} .$

More generally, if $h (x) = {log}_{b} (g (x)),$ then for all values of x for which $g (x) > 0,$

$h^{'} (x) = \frac{g^{'} (x)}{g (x) ln b} .$
If $y = b^{x},$ then

$\frac{d y}{d x} = b^{x} ln b .$

More generally, if $h (x) = b^{g (x)},$ then

$h^{'} (x) = b^{g (x)} g ″ (x) ln b .$

Proof

If $y = {log}_{b} x,$ then $b^{y} = x .$ It follows that $ln (b^{y}) = ln x .$ Thus $y ln b = ln x .$ Solving for $y,$ we have $y = \frac{ln x}{ln b} .$ Differentiating and keeping in mind that $ln b$ is a constant, we see that

\frac{d y}{d x} = \frac{1}{x ln b} .

The derivative in [link] now follows from the chain rule.

If $y = b^{x},$ then $ln y = x ln b .$ Using implicit differentiation, again keeping in mind that $ln b$ is constant, it follows that $\frac{1}{y} \frac{d y}{d x} = ln b .$ Solving for $\frac{d y}{d x}$ and substituting $y = b^{x},$ we see that

\frac{d y}{d x} = y ln b = b^{x} ln b .

The more general derivative ( [link] ) follows from the chain rule.

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Applying derivative formulas

Find the derivative of $h (x) = \frac{3^{x}}{3^{x} + 2} .$

Use the quotient rule and [link] .

\begin{matrix} h^{'} (x) & = \frac{3^{x} ln 3 (3^{x} + 2) - 3^{x} ln 3 (3^{x})}{{(3^{x} + 2)}^{2}} & Apply the quotient rule. \\ = \frac{2 \cdot 3^{x} ln 3}{{(3^{x} + 2)}^{2}} & Simplify. \end{matrix}

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Finding the slope of a tangent line

Find the slope of the line tangent to the graph of $y = {log}_{2} (3 x + 1)$ at $x = 1 .$

To find the slope, we must evaluate $\frac{d y}{d x}$ at $x = 1 .$ Using [link] , we see that

\frac{d y}{d x} = \frac{3}{ln 2 (3 x + 1)} .

By evaluating the derivative at $x = 1,$ we see that the tangent line has slope

\frac{d y}{d x} | \begin{array}{l} _{x = 1} \end{array} = \frac{3}{4 ln 2} = \frac{3}{ln 16} .

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Find the slope for the line tangent to $y = 3^{x}$ at $x = 2 .$

$9 ln (3)$

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Logarithmic differentiation

At this point, we can take derivatives of functions of the form $y = {(g (x))}^{n}$ for certain values of $n,$ as well as functions of the form $y = b^{g (x)},$ where $b > 0$ and $b \neq 1 .$ Unfortunately, we still do not know the derivatives of functions such as $y = x^{x}$ or $y = x^{π} .$ These functions require a technique called logarithmic differentiation , which allows us to differentiate any function of the form $h (x) = g {(x)}^{f (x)} .$ It can also be used to convert a very complex differentiation problem into a simpler one, such as finding the derivative of $y = \frac{x \sqrt{2 x + 1}}{e^{x} {sin}^{3} x} .$ We outline this technique in the following problem-solving strategy.

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Source: OpenStax, Calculus volume 1. OpenStax CNX. Feb 05, 2016 Download for free at http://cnx.org/content/col11964/1.2

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