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Derivatives of inverse hyperbolic functions

The six inverse hyperbolic derivatives

To build our inverse hyperbolic functions, we need to know how to find the inverse of a function in general, so let’s review.

To find the inverse of a function, we reverse the ???x??? and the ???y??? in the function.

So for ???y=\cosh{(x)}???, the inverse function would be ???x=\cosh{(y)}???.

We’d then solve this equation for ???y??? by taking inverse hyperbolic cosine of both sides.

???x=\cosh{(y)}???

???\cosh^{-1}{x}=\cosh^{-1}{\left[\cosh{(y)}\right]}???

???\cosh^{-1}{x}=y???

???y=\cosh^{-1}{x}???

Remember that you can also see this function written as ???y={\text{arccosh}}{(x)}???. These are both representations of the inverse hyperbolic cosine function, and they can be used interchangeably.

Now that we understand how to find an inverse hyperbolic function when we start with a hyperbolic function, let’s talk about how to find the derivative of the inverse hyperbolic function.

Below is a chart which shows the six inverse hyperbolic functions and their derivatives.

How to use implicit differentiation to find formulas for inverse hyperbolic derivatives


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Differentiating inverse hyperbolic cotangent

Let’s try an example with an inverse hyperbolic function.

Example

Find the derivative.

???y=-8\coth^{-1}{\left(21x^3\right)}???

Remember, as the chart above illustrates, we have to apply chain rule whenever we take the derivative of an inverse hyperbolic function.

That means that we take the derivative of the outside function first (the inverse hyperbolic function), leaving the inside function alone, and then we multiply our result by the derivative of the inside function.

???y\prime=-8\left[\frac{1}{1-\left(21x^3\right)^2}\right]\left(63x^2\right)???

???y\prime=-\frac{504x^2}{1-441x^6}???


Now let’s try an example with an inverse hyperbolic function occurring as part of a larger equation.


Example

Find the derivative.

???y=6x^{-4}-\cosh^{-1}{\left(4x^7\right)}???

Applying chain rule, we get

???y\prime=-24x^{-5}-\left[\frac{1}{\sqrt{(4x^7)^2-1}}\right]\left(28x^6\right)???

???y\prime=-\frac{24}{x^5}-\frac{28x^6}{\sqrt{16x^{14}-1}}???


Let’s try one more example that’s a little more complex.


Example

Find the derivative.

???y={\text{sech}^{-1}}{\left(81x^4\right)}-5x^{-9}\sinh^{-1}{\left(6x^7\right)}+103x^8???

Taking the derivative one term at a time, applying product rule to the second term, ???-5x^{-9}\sinh^{-1}{\left(6x^7\right)}???, and remembering to apply chain rule, the derivative is

???y\prime=\left(-\frac{1}{81x^4\sqrt{1-\left(81x^4\right)^2}}\right)\left(324x^3\right)???

???-\left[\left(-45x^{-10}\right)\left(\sinh^{-1}{\left(6x^7\right)}\right)+\left(5x^{-9}\right)\left(\frac{1}{\sqrt{\left(6x^7\right)^2+1}}\right)\left(42x^6\right)\right]+824x^7???

???y\prime=-\frac{324x^3}{81x^4\sqrt{1-\left(81x^4\right)^2}}-\left[-45x^{-10}\sinh^{-1}{\left(6x^7\right)}+\frac{210x^{-9}x^6}{\sqrt{\left(6x^7\right)^2+1}}\right]+824x^7???

???y\prime=-\frac{324x^3}{81x^4\sqrt{1-\left(81x^4\right)^2}}+45x^{-10}\sinh^{-1}{\left(6x^7\right)}-\frac{210x^{-9}x^6}{\sqrt{\left(6x^7\right)^2+1}}+824x^7???

???y\prime=\frac{45\sinh^{-1}{\left(6x^7\right)}}{x^{10}}-\frac{4}{x\sqrt{1-6,561x^8}}-\frac{210}{x^3\sqrt{36x^{14}+1}}+824x^7???


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