The equation of the directrix of a hyperbola is x-y+3 = 0. Its focus is (-1,1) and eccentricity is 2 . Find the equation of the hyperbola.

The equation of the directrix of a hyperbola x - y + 3 = 0 . One of its focus is at (-1,1) and eccentricity is 3 . Find the equation of the hyperbola .

The equation of the axis and directrix of a parabola are x-y+3=0.One of its focus is at (-1,1)and its eccentricity is 3.Find the equation of the hyperbola.

The equation of one of the directrices of a hyperboda is 2x+y=1, the corresponding focus is (1, 2) and e=sqrt(3) . Find the equation of the hyperbola.

The equation of the directrix of a parabola is x = y and the coordinates of its focus ar (4,0) . Find the equation of the parabola.

The coordinates of the foci of a hyperbola are (16,0) and (-8,0) and its eccentricity is 3, find the equation of the hyperbola and the length of its latus rectum.

The directrix of a parabola is x+y+4=0and vertex is at (-1,-1).Find the position of the focus and the equation of parabola.

The distance between the foci of a hyperbola is 16 and its eccentricity is sqrt(2) then equation of the hyperbola is

The equation of the directrices of the hyperbola 3x^(2)-3y^(2)-18x+12y+2=0 is

The coordinates of the foci of a hyperbola are ( pm 6,0) and its latus rectum is of 10 unit. Find the equation of the hyperbola.

Find the equation of a hyperbola, having foci (+- 7. 0) and its eccentricity is 4//3 .