If tangents are drawn to the ellipse x^2...

If tangents are drawn to the ellipse `x^2+2y^2=2,` then the locus of the midpoint of the intercept made by the tangents between the coordinate axes is `1/(2x^2)+1/(4y^2)=1` (b) `1/(4x^2)+1/(2y^2)=1` `(x^2)/2+y^2=1` (d) `(x^2)/4+(y^2)/2=1`

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If tangents are drawn to the ellipse x^(2)+2 y^(2)=2 then the locus of the midpoint of the intercept made by the tangents between the coordinate axes is

Tangents are drawn to the ellipse x^2+2y^2=2 , then the locus of the mid-point of the intercept made by the tangents between the coordinate axes is

If tangents are drawn to the ellipse x^2+2y^2=2, then the locus of the midpoint of the intercept made by the tangents between the coordinate axes is (a) 1/(2x^2)+1/(4y^2)=1 (b) 1/(4x^2)+1/(2y^2)=1 (c) (x^2)/2+y^2=1 (d) (x^2)/4+(y^2)/2=1

The locus of mid points of intercept made by tangents between co-ordinate axis of ellipse x^2+2y^2=2 is (A) 1/(4x^2)+1/(2y^2)=1 (B) x^2/2+y^2/4=1 (C) x^2/4+y^2/2=1 (D) 1/(2x^2)+1/(4y^2)=1

The locus of mid points of intercept made by tangents between co-ordinate axis of ellipse x^(2)+2y^(2)=2 is (A) (1)/(4x^(2))+(1)/(2y^(2))=1(B)(x^(2))/(2)+(y^(2))/(4)=1(C)(x^(2))/(4)+(y^(2))/(2)=1(D)(1)/(2x^(2))+(1)/(4y^(2))=1

Find the locus of mid-point of the portion of tangent intercepted between coordinate axes to the circle x^(2)+y^(2)=1

If tangents are drawn to the ellipse `x^2+2y^2=2,` then the locus of the midpoint of the intercept made by the tangents between the coordinate axes is `1/(2x^2)+1/(4y^2)=1` (b) `1/(4x^2)+1/(2y^2)=1` `(x^2)/2+y^2=1` (d) `(x^2)/4+(y^2)/2=1`

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