Prove that the equation of the normal to...

Prove that the equation of the normal to `x^(2/3)+y^(2/3)=a^(2/3)` is `ycostheta-xsintheta=acos2theta,` where `theta` is the angle which the normal makes with the axis of `xdot`

Similar Questions

Explore conceptually related problems

If the normal to the curve x^(2//3)+y^(2//3)=a^(2//3) makes an angle theta with the x -axis then the slope of the normal is ……….

Show that the equation of the normal to the curve x=a cos ^(3) theta, y=a sin ^(3) theta at 'theta ' is x cos theta -y sin theta =a cos 2 theta .

Find the equation of normal to the cure y=sin^(2)x" at "(pi/3,3/4) .

Find the equations of tangent and normal to the ellipse x^(2)+4y^(2)=32 when theta=(pi)/(4) .

Find the equation of tangent nad normal to the ellipse 4x^(2)+y^(2)=32 at theta=(pi)/(4) .

Find the equations of the tangent and normal to the curve x^(2/3)+y^((2)/(3))=2 at (1,1).

Equation of the normal to the curve y=2x^(2)+3sinx at x = 0 is

Find the equation of the normal to the circle x^2+y^2-2x=0 parallel to the line x+2y=3.