Question

Solution

Correct option is

Lie on a circle centred at and of radius Equation of any curve passing through the intersection of the given ellipse is

x2 + 2y2 – 2o– 12y + 35 + λ(x2 + 2y2 – 6x – 12y + 23) = 0

Which represents a circle is And the equation of the circle is thus,

6x2 + 6y2 – 32x – 36+ 81 = 0 Center of the circle is And the radius is  SIMILAR QUESTIONS

Q1

Consider the two curves C1 : y2 = 4x ; C2 : x2 + y2 – 6x + 1, then

Q2

If F1 = (3, 0), F2 = (–3, 0) and P is any point on the curve 16x2 +25y2 = 400, then PF1 + PF2 equal

Q3

The locus of the points of intersection of the tangents at the extremities of the chords of the ellipse x2 + 2y2 = 6 which touch the ellipse x2 + 4y2 = 4 is

Q4

The normal at an end of a latus rectum of the ellipse passes through an end of the minor axis if

Q5

If an ellipse slides between two perpendicular straight line, then the locus of its center is

Q6

If the tangent at a point on the ellipse meets the auxillary circle in two points, the chords joining them subtends a right angle at the center; then the eccentricity of the ellipse is given by

Q7

The line passing through the extremity A of the major axis and extremity B of the minor axis of the ellipse. x2 + 9y2 = 9, meets the auxillary circle at the point M, then the area of the triangle with vertices at A, M and the origin is

Q8

The normal at a point P on the ellipse x2 + 4y2 = 16 meets the x-axis at Q, then locus of M intersects the latus rectums of the given ellipse at the points.

Q9

Let a and b be non-zero real numbers. Then the equation (ax2 + by2 + c)(x2 – 5xy + 6y2) = 0 represents

Q10

The tangent at any point P of the hyperbola makes an intercept of length p between the point of contact and the transverse axis of the hyperbola, p1p2 are the lengths of the perpendiculars drawn from the foci on the normal at P, then