Find the equation of the parabola whose vertex is at (2,-3) , axis is parallel to x - axis and length of latus rectum is 12 .

The differential equation of the family of parabolas whose vertex is at (1, 2) and axis is parallel to x - axis is

The differential equation of the family of parabolas whose vertex is at (1, 2) and axis is parallel to x-axis is -

If line P Q , where equation is y=2x+k , is a normal to the parabola whose vertex is (-2,3) and the axis parallel to the x-axis with latus rectum equal to 2, then the value of k is

Find the equation of the parabola whose vertex is (2,3) and the equation of latus rectum is x = 4 . Find the coordinates of the point of intersection of this parabola with its latus rectum .

Find the equation of the ellipse whose major axis is parallel to x - axis and centre is (-2,1) , length of major axis 2sqrt(3) and the coordinates of foci are (-1,1) and (-3,1)

Find the equation of the hyperbola, whose axes are axes of coordinates and lengths of conjugate axis and latus rectum are 2 (8)/(3) respectively.

Find the differential equation of all parabolas whose axis are parallel to the x-axis.

Find the equation of the ellipse whose major axis is parallel to x - axis and centre is (-3,2) , eccentricity is (sqrt(7))/(4) and the length of latus rectum is (9)/(2) .

Find the equation of the hyperbola whose axis are the axis of coordinates and eccentricity is sqrt((3)/(2)) and length of latus rectum is sqrt(2) .

Find the equation of the parabola whose focus is (3, 4) and whose directrix is 3x + 4y + 25 = 0 . Also find the length of latus rectum of he parabola .