A tangent is drawn at the point `(3sqrt3costheta, sintheta)` for `0ltthetaltpi/2` of an ellipse `x^2/(27)+y^2=1`.The least value of the sum of the intercepts on the coordinate axes by this tangent is attained at `theta` equal to

A tangent is drawn at the point (3 sqrt(3) cos theta, sin theta) for 0 lt theta lt (pi)/(2) , of an ellipse (x^(2))/(27)+(y^(2))/(1)=1 . The least value of the sum of the intercepts on the coordinate axis by this tangent is attained at theta equal to

A tangent is drawn at the point (3 sqrt(3) cos theta, sin theta) (0 lt theta lt (pi)/(2)) to the ellipse x^(2) + 27y^(2)=27 , then the least value of the sum of the intercepts on the coordinate axes by this tangent is attained when the value of theta is-

A tangent is drawn at (3sqrt(3) cos theta, sin theta) (0 lt theta lt pi/2) to the ellipse x^(2)/27+y^(2)/1=1 . The value of theta for which the sum of the intercepts on the coordinate axes made by this tangent attains the minimum, is

The sum of the intercepts on the coordinate axes of any tangent to sqrt(x)+sqrt(y)=sqrt(a) is

A tangent is drawn to the ellipse (x^2)/(27)+y^2=1 at (3sqrt(3)costheta, sin theta) where theta epsilon(0,pi/2)dot Then find the value of theta such that the sum of intercepts on the axes made by this tangent is minimum.

A tangent is drawn to the ellipse (x^2)/(27)+y^2=1 at (3sqrt(3)costheta, sin theta) where theta epsilon(0,pi/2)dot Then find the value of theta such that the sum of intercepts on the axes made by this tangent is minimum.

A tangent is drawn to the ellipse (x^(2))/( 27 ) +y^(2) =1 at the point (3sqrt3 cos theta, sin theta) "where" 0 lt theta lt (pi )/(2) then the sum of the intercepts of the tangent with the coordinate axes is least when theta =