The equation represents(1981 - 2 Marks)
Each of the four inequalties given below defines a region in the xy plane. One of these four regions does not have the following property. For any two points (x1, y1) and (x2, y2) in th e region , the point is also in the region. The inequality defining this region is (1981 - 2 Marks)
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The equation 2x2 + 3y2 – 8x – 18y + 35 = k represents (1994)
Let E be the ellipse and C be the circle x2 + y2 = 9. Let P and Q be the points (1, 2) and (2, 1) respectively. Then (1994)
Consider a circle with its centre lying on the focus of the parabola y2 = 2px such that it touches the directrix of the parabola. Then a point of intersection of the circle and parabola is (1995S)
The radius of the circle passing through the foci of theellipse and having its centre at (0, 3) is (1995S)
Let P (a secθ, b tanθ) and Q (a secφ, b tanφ), where q + f = π/ 2, be two points on the hyperbolaIf (h, k) is the point of intersection of the normals at P and Q, then k is equal to (1999 - 2 Marks)
If x = 9 is the chord of contact of the hyperbola x2 – y2 = 9, then the equation of the corresponding pair of tangents is (1999 - 2 Marks)
Th e curve described par ametr ically by x = t2 + t + 1, y = t2 – t + 1 represents (1999 - 2 Marks)
If x + y = k is normal to y2 = 12 x, then k is (2000S)
If the line x – 1 = 0 is the directrix of the parabola y2 – kx + 8 = 0, then one of the values of k is (2000S)
The equation of the common tangent touching the circle (x -3)2 + y2 = 9 and the parabola y2 = 4x above the x-axis is (2001S)
The equation of the directrix of the parabola y2 + 4y + 4x + 2 = 0 is (2001S)
If a > 2b > 0 then the positive value of m for which is a common tangent to x2 + y2 = b2 and (x – a)2 + y2 = b2 is (2002S)
The locus of the mid-point of the line segment joining the focus to a moving point on the parabola y2 = 4ax is another parabola with directrix (2002S)
The equation of the common tangent to the curves y2 = 8x and xy = –1 is (2002S)
The area of the quadrilateral formed by the tangents at the end points of latus rectum to the ellipse is
The focal chord to y2 = 16x is tangent to (x – 6)2 + y2 = 2, then the possible values of the slope of this chord, are (2003S)
For hyperbola which of the following remains constant with change in ‘α’ (2003S)
If tangents are drawn to the ellipse x2 + 2y2 = 2, then the locus of the mid-point of the intercept made by the tangents between the coordinate axes is (2004S)
The angle between the tangents drawn from the point (1, 4) to the parabola y2 = 4x is (2004S)
If the line = 2 touches the hyperbola x2 – 2y2 = 4, then the point of contact is (2004S)
The minimum area of triangle formed by the tangent to the & coordinate axes is (2005S)
Tangent to the curve y = x2 + 6 at a point (1, 7) touches the circle x2 + y2 + 16x + 12y + c = 0 at a point Q. Then the coordinates of Q are (2005S)
The axis of a parabola is along the line y = x and the distances of its vertex and focus from origin are and respectively. If vertex and focus both lie in the first quadrant, then the equation of the parabola is (2006 - 3M, –1)
A hyperbola, having the transverse axis of length 2 sinθ, is confocal with the ellipse 3x2 + 4y2 = 12. Then its equation is (2007 - 3 marks)
Let a and b be non-zero real numbers. Then, the equation (ax2 + by2 + c) (x2 – 5xy + 6y2) = 0 represents (2008)
Consider a branch of the hyperbola with vertex at the point A. Let B be one of the end points of its latus rectum. If C is the focus of the hyperbola nearest to the point A, then the area of the triangle ABC is (2008)
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 its auxiliary circle at the point M. Then the area of the triangle with vertices at A, M and the origin O is (2009)
The normal at a point P on the ellipse x2 + 4y2 = 16 meets the x - axis at Q. If M is the mid point of the line segment PQ, then the locus of M intersects the latus rectums of the given ellipse at the points (2009)
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149 videos|192 docs|197 tests
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