The tangent to `x^(2)//a^(2)+y^(2)//b^(2)=1` meets the major and minor axes in P and Q respectively, then `a^(2)//CP^(2)+b^(2)//CQ^(2)=`

Assertion (A) If the tangent and normal to the ellipse 9x^(2)+16y^(2)=144 at the point P(pi/3) on it meet the major axis in Q and R respectively, then QR=(57)/(8) . Reason (R) If the tangent and normal to the ellipse (x^(2))/(a^(2))+(y^(2))/(b^(2))= at the point P(theta) on it meet the major axis in Q and R respectively, then QR=|(a^(2)sin^(2)theta-b^(2)cos^(2)theta)/(a cos theta)| The correct answer is

If the normal at any point P on the ellipse (x^(2))/(a^(2))+(y^(2))/(b^(2))=1 meets the axes in G and g respectively. Find the ratio PG : Pg

If any tangent to the ellipse x^(2)//a^(2)+y^(2)//b^(2)=1 intercepts equal length l on the axes then l =

If the tangent at (1,1) on y^2=x(2-x)^2 meets the curve again atpis

If a tangent to the ellipse meets major and minor axis at M and N respectively and C is the centre of the ellipse thejn (a^(2))/(CM)^(2)+(b^(2))/(CN)^(2) =

A tangent to the circle x^(2)+y^(2)=4 meets the coordinate axes at P and Q. The locus of midpoint of PQ is

The sum of the squares of the perpendiculars on any tangent to the ellipse x^(2)//a^(2)+y^(2)//b^(2)=1 from two points on the minor axis each at a distance sqrt(a^(2)-b^(2)) from the centre is