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Question
Using derivative, prove that: sec–1x + cosec–1x = `pi/(2)` ...[for |x| ≥ 1]
Solution
Let f(x) = sec–1x + cosec–1x for |x| ≥ 1 ...(1)
Differentiating w.r.t. x, we get
f'(x) = `"d"/"dx"(sec^-1 x + "cosec"^-1 x)`
= `"d"/"dx"(sec^-1 x) + "d"/"dx"("cosec"^-1 x)`
= `(1)/(xsqrt(x^2 - 1)) - (1)/(xsqrt(x^2 - 1)`
= 0
Since, f'(x) = 0, f(x) is a constant function.
Let f(x) = k.
For any value of x,f(x) = k, where |x| > 1
Let x = 2.
Then, f(2) = k ...(2)
From (1),f(2) = sec–1(2) + cosec–1(2)
= `pi/(3) + pi/(6) = pi/(2)`
∴ k = `pi/(2)` ...[By (2)]
∴ f(x) = k = `pi/(2)`
Hence, sec–1x + cosec–1x = `pi/(2)`. ...[By (1)]
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