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Question
Differentiate `tan^-1((sqrt(1 + x^2) - 1)/x)` w.r.t. `cos^-1(sqrt((1 + sqrt(1 + x^2))/(2sqrt(1 + x^2))))`
Solution
Let u = `tan^-1((sqrt(1 + x^2) - 1)/x)`
and v = `cos^-1(sqrt((1 + sqrt(1 + x^2))/(2sqrt(1 + x^2))))`
Then we want to find `(du)/(dv)`.
Put x = tan θ.
Then θ = tan–1x.
Also, `(sqrt(1 + x^2) - 1)/x`
= `sqrt(1 + tan^2θ - 1)/tanθ`
= `(secθ - 1)/tanθ`
= `(1/cosθ - 1)/((sinθ/cosθ)`
= `( 1 - cosθ)/sinθ`
= `(2sin^2(θ/2))/(2sin(θ/2).cos(θ/2)`
= `tan(θ/2)`
and `(1 + sqrt(1 + x^2))/(2sqrt(1 + x^2)`
= `(1 + sqrt(1 + tan^2θ))/(2sqrt(1 + tan^2θ)`
= `(1 + secθ)/(2secθ)`
= `(1 + 1/cosθ)/((2/cosθ)`
= `(1 + cosθ)/(2)`
= `(2cos^2(θ/2))/(2)`
= `cos^2(θ/2)`
∴ `sqrt((1 + sqrt(1 + x^2))/(2sqrt(1 + x^2))) = cos(θ/2)`
∴ u = `tan^-1[tan(θ/2)]` and v = `cos^-1[cos(θ/2)]`
∴ u = `θ/2` and v = `θ/2`
∴ u = `1/2tan^-1x` and v = `1/2tan^-1x`
Differentiating u and v w.r.t. x, we get
`(du)/dx = 1/2 d/dx (tan^-1x)`
= `1/2 xx 1/(1 + x^2)`
= `1/(2(1 + x^2)`
and `(dv)/dx = 1/2 d/dx (tan^-1x)`
= `1/2 xx 1/(1 + x^2)`
= `1/(2(1 + x^2)`
∴ `(du)/(dv) = ((du//dx))/((dv//dx)`
= `(1/(2(1 + x^2)))/(1/(2(1 + x^2))` = 1
Remark: u = `1/2tan^-1x` and v = `1/2tan^-1x`
∴ u = v
∴ `(du)/(dv) = d/(dv)(v)` = 1
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