Any ordinate M P of the ellipse (x^2)/(2...

Any ordinate `M P` of the ellipse `(x^2)/(25)+(y^2)/9=1` meets the auxiliary circle at `Qdot` Then locus of the point of intersection of normals at `Pa n dQ` to the respective curves is `x^2+y^2=8` (b) `x^2+y^2=34` `x^2+y^2=64` (d) `x^2+y^2=15`

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Any ordinate M P of the ellipse (x^2)/(25)+(y^2)/9=1 meets the auxiliary circle at Qdot Then locus of the point of intersection of normals at Pa n dQ to the respective curves is (a) x^2+y^2=8 (b) x^2+y^2=34 (c) x^2+y^2=64 (d) x^2+y^2=15

Any ordinate MP of the ellipse (x^(2))/(25)+(y^(2))/(9)=1 meets the auxiliary circle at Q. Then locus of the point of intersection of normals at P and Q to the respective curves at x^(2)+y^(2)=8( b) x^(2)+y^(2)=34x^(2)+y^(2)=64 (d) x^(2)+y^(2)=15

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Any ordinate `M P` of the ellipse `(x^2)/(25)+(y^2)/9=1` meets the auxiliary circle at `Qdot` Then locus of the point of intersection of normals at `Pa n dQ` to the respective curves is `x^2+y^2=8` (b) `x^2+y^2=34` `x^2+y^2=64` (d) `x^2+y^2=15`

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