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Question: Write \[{{\cot }^{-1}}\left( \dfrac{1}{\sqrt{{{x}^{2}}-1}} \right),x>1\]in the simplest form....

Write cot1(1x21),x>1{{\cot }^{-1}}\left( \dfrac{1}{\sqrt{{{x}^{2}}-1}} \right),x>1in the simplest form.

Explanation

Solution

Hint: In this question, we first need to assume the value of x as a secant function. Then on substituting it and simplifying further by using the trigonometric identity we can write it in terms of cotangent. Now, by using properties of inverse trigonometric functions and then substituting the value of x back we get the simplest form.
sec2θ1=tan2θ{{\sec }^{2}}\theta -1={{\tan }^{2}}\theta
cot1(cotθ)=θ θ(0,π){{\cot }^{-1}}\left( \cot \theta \right)=\theta \text{ }\theta \in \left( 0,\pi \right)

Complete step-by-step answer:

Now, from the given expression in the question we have,
cot1(1x21)\Rightarrow {{\cot }^{-1}}\left( \dfrac{1}{\sqrt{{{x}^{2}}-1}} \right)
Now, let us assume the value of x as some secant function
x=secθx=\sec \theta
Now, on substituting the value of x in the above expression we get,
cot1(1sec2θ1)\Rightarrow {{\cot }^{-1}}\left( \dfrac{1}{\sqrt{{{\sec }^{2}}\theta -1}} \right)
As we already know from the trigonometric identity that
sec2θ1=tan2θ{{\sec }^{2}}\theta -1={{\tan }^{2}}\theta
Let us now substitute this value of trigonometric identity in the above expression to simplify it further
cot1(1tan2θ)\Rightarrow {{\cot }^{-1}}\left( \dfrac{1}{\sqrt{{{\tan }^{2}}\theta }} \right)
Now, this can be further written as
cot1(1tanθ)\Rightarrow {{\cot }^{-1}}\left( \dfrac{1}{\tan \theta } \right)
As we already know that the relation between tangent function and cotangent function.
cotθ=1tanθ\cot \theta =\dfrac{1}{\tan \theta }
Now, by substituting this relation in the above expression obtained we get,
cot1(cotθ)\Rightarrow {{\cot }^{-1}}\left( \cot \theta \right)
As we already know from the properties of inverse trigonometric functions we gte,
θ\Rightarrow \theta
Now, from the value of x we assumed we can further write it as
x=secθx=\sec \theta
Now, on applying inverse of secant function on both sides we get,
θ=sec1x\Rightarrow \theta ={{\sec }^{-1}}x
Now, on substituting this value of theta back we get,
sec1x\Rightarrow {{\sec }^{-1}}x
Hence, the simplest form of cot1(1x21){{\cot }^{-1}}\left( \dfrac{1}{\sqrt{{{x}^{2}}-1}} \right) is sec1x{{\sec }^{-1}}x

Note: It is important to note that in order to simplify the given expression we first need to assume some value of x. As the inverse function is cotangent we need to get the expression inside in terms of tangent which can be obtained by considering x as secant function.
Instead of assuming x as secant we can also assume it as cosecant and then using the trigonometric identity we can simplify it further accordingly to get the result. Both the methods give the same result.