In an ellipse, its foci and the ends of its major axis are equally spaced. If the length of its semi-minor is ` 2sqrt(2),` them the length of its semi-major axis is

If the length of the major axis of an ellipse is 17/8 times the length of the minor axis, then the eccentricity of the ellipse is

if the major axis of an ellipse is three times the length of its minor axis , its eccentricity , is

In an ellipse length of minor axis is 8 and eccentricity is (sqrt(5))/(3) . The length of major axis is

An ellipse passing through the origin has its foci (3,4) and (6,8). Then length of its semi-minor axis is b, then the value of b/sqrt2 is

The equation of the ellipse, the co-ordinates of whose foci a re (pmsqrt(3), 0) and length of the semi-major axis as 2 is

If the major axis of an ellipse lies on the Y-axis,its minor axis lies on the X-axis and the length of its latus rectum is equal to (2)/(3) of its minor axis,then the eccentricity of that ellipse is

If (0, 3+sqrt5) is a point on the ellipse whose foci and (2, 3) and (-2, 3) , then the length of the semi - major axis is

Let the length of the latus rectum of an ellipse with its major axis along x-axis and centre at the origin be 8. If the distance between the foci of this ellipse is equal to the length of its minor axis, then which one of the following points lie on it

In an ellipse,with centre at the origin,if the difference of the length of major axis and minor axis is 10 and one of the foci is at (0,5sqrt(3)). Then the length of its latus rectum is :

A focus of an ellipse is at the origin.The directrix is the line x=4 and the eccentricity is (1)/(2) Then the length of the semi-major axis is