Let d and `d^(')` be the perpendicular distances from the foci of an ellipse to the tangent at P on the ellipse whose foci are S and `S^(')`. Then `S^(')P:SP=`

If P is a point on the ellipse 9x^(2)+36y^(2)=324 whose foci are S and S^(') . Then PS+PS^(')=

Find the equation of the ellipse whose foci are (0pm 3) and e=3/4

Let d be the perpendicular distance from the centre of the ellipse x^(2)/a^(2)+y^(2)/b^(2) = 1 to the tangent drawn at a point P on ellipse. If F_(1) and F_(2) are the foci of the ellipse, then show that (PF_(1)-PF_(2))^(2)=4a^(2)(1-(b^(2))/(d^(2)))

Show that the locus of the feet of the perpendiculars drawn from the foci to any tangent of the ellipse is the auxiliary circle

If F_(1), F_(2), F_(3) be the feet of the perpendicular from the foci S_(1), S_(2) of an ellipse x^(2)//5+y^(2)//3=1 on the tangent at any point P on the ellipse then S_(1)F_(1)*S_(2)F_(2)=

The product of the perpendiculars from the foci on any tangent to the ellipse x^(2)//a^(2)+y^(2)//b^(2)=1 is

If P is a point on the ellipse x^(2)/a^(2)+y^(2)/b^(2)=1 whose foci are S, S^(') " then "PS+PS^(')=

The product of the perpendicular distances drawn from the foci to any tangent of the ellipse (x^(2))/(a^(2))+(y^(2))/(b^(2))=1 is (gtb)