Find the equation of the hyperbola where foci are `(0,+-12)` and the length of the latus rectum is `36`.

Find the equation of the hyperbola whose foci are (0,pm12) and the length of the lectus rectum is 36 units.

Find the equation of the hyperbola whose foci are (10, 5) and (-2, 5) and eccentricity 3.

Find the equation to the hyperbola whose foci, are (6,4) and (-4,4) and eccentricity is 2.

Find the equation of the hyperbola with foci (0,+-3) and vertices (0,+-(sqrt(11))/(2))

If the parabola y^(2)=4 a x passes through (3,2) then the length of the latus rectum is

Find the equations of the hyperbola satisfying the given conditions. Foci (+-4,0) , the latus rectum is of length 12 .

Find the equation of the ellipse whose foci are at (pm5, 0) and 5x=36 as on of its directrices.

In each of the following find the coordinates of the focus , axis of the parabola , the equation of the directrix and the length of the latus rectum. y^(2)=12x .

Find the foci of the hyperbola 9x^2-4y^2=36 .