Let the slope of the tangent to a curve y = f(x) at (x, y) be given by 2 tanx(cosx – y). If the curve passes through the point (π/4, 0) then the value of
\(\int_{0}^{\frac{\pi}{2}} y \,dx\)
is equal to :
Let the slope of the tangent to a curve y = f(x) at (x, y) be given by 2 tanx(cosx – y). If the curve passes through the point (π/4, 0) then the value of
\(\int_{0}^{\frac{\pi}{2}} y \,dx\)
is equal to :
\((2-\sqrt2)+\frac{π}{\sqrt2}\)
\(2-\frac{π}{\sqrt2}\)
\((2+\sqrt2)+\frac{π}{\sqrt2}\)
\(2+\frac{π}{\sqrt2}\)
The Correct Option is B
Solution and Explanation
The correct answer is (B) : \(2-\frac{π}{\sqrt2}\)
\(\frac{dy}{dx}=2tanx(cosx−y)\)
\(⇒\frac{dy}{dx}+2tanxy=2sinx\)
\(I.F=e^{∫2tanxdx}=sec^2x\)
∴ Solution of D.E. will be
\(y(x)sec^2x=∫2sinxsec^2xdx\)
\(ysec^2x=2secx+c\)
∵ Curve passes through
\((\frac{π}{4},0)\)
\(∴c=−2\sqrt2\)
\(∴y=2cosx−2\sqrt2cos^2x\)
\(\therefore \int_{0}^{\frac{\pi}{2}} y \,dx = \int_{0}^{\frac{\pi}{2}} (2\cos x - 2\sqrt{2}\cos^2 x) \,dx\)
\(=2−2\sqrt2⋅\frac{π}{4}\)
\(=2−\frac{π}{\sqrt2}\)
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Concepts Used:
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- The slope ‘n’ of the normal: As the normal is perpendicular to the tangent, we have: n=-1/m
Diagram Explaining Tangents and Normal:
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