let `A(x_1,0)` and `B(x_2,0)` be the foci of the hyperbola `x^2/9-y^2/16=1` suppose parabola having vertex at origin and focus at `B` intersect the hyperbola at `P` in first quadrant and at point Q in fourth quadrant.

Let F_1(x_1,0)" and "F_2(x_2,0) , for x_1 lt 0 " and" x_2 gt 0 , be the foci of the ellipse (x^2)/(9)+(y^2)/(8)=1 . Suppose a parabola having vertex at the origin and focus at F_2 intersects the ellipse at point M in the first quadrant and at point N in the fourth quadrant. If the tangents to the ellipse at M and N meet at R and the normal to the parabola at M meets the x-axis at Q, then the ratio of the area of the triangle MQR to area of the quadrilateral MF_1NF_2 is :

Let F_(1)(x_(1),0)and F_(2)(x_(2),0)" for "x_(1)lt0 and x_(2)gt0 the foci of the ellipse (x^(2))/(9)+(y^(2))/(8)=1 . Suppose a parabola having vertex at the origin and focus at F_(2) intersects the ellipse at point M in the first quadrant and at a point N in the fourth quardant. The orthocentre of the triangle F_(1)MN , is

What are the foci of the hyperbola x^(2)/(36)-y^(2)/(16)=1

Let P(6,3) be a point on the hyperbola x^2/a^2-y^2/b^2=1 If the normal at the point intersects the x-axis at (9,0), then the eccentricity of the hyperbola is

From the point (2, 2) tangent are drawn to the hyperbola (x^2)/(16)-(y^2)/9=1. Then the point of contact lies in the first quadrant (b) second quadrant third quadrant (d) fourth quadrant

if 5x+9=0 is the directrix of the hyperbola 16x^(2)-9y^(2)=144 , then its corresponding focus is

Let x^2 + y^2 = r^2 and xy = 1 intersect at A & B in first quadrant, If AB = sqrt14 then find the value of r.

From the point (2, 2) tangent are drawn to the hyperbola (x^2)/(16)-(y^2)/9=1. Then the point of contact lies in the (a) first quadrant (b) second quadrant (c) third quadrant (d) fourth quadrant

Let P(6,3) be a point on the hyperbola parabola x^2/a^2-y^2/b^2=1 If the normal at the point intersects the x-axis at (9,0), then the eccentricity of the hyperbola is

The number of points outside the hyperbola x^2/9-y^2/16=1 from where two perpendicular tangents can be drawn to the hyperbola are: (a) 0 (b) 1 (c) 2 (d) none of these