In an ellipse, minor axis =8 and e=(sqrt(5))/(3). Then the major axis is

(2,4) and (10,10) are the ends of a latus rectum of an ellipse with e=(1)/(2) . The length of the major axis is

If the eccentricity of the ellipse is (2)/(3) , then the ratio of the major axis to minor axis is

The foci of an ellipse are (0,pm1) and minor axis is of unit length. Then the equation of the ellipse is :

In an ellipse the distance between the foci is 6 and minor axis is 8 . Then the eccentricity is

The distance between the foci is 6 , e=(1)/(2) , the length of the major axis of the ellipse is

Orbit of the earth around the sun is an ellipse with sun at one of its foci. If the semi-major axis is 150 million kilometers and the eccentricity is (1)/(60) , the difference between the maximum and the minimum distance between the earth and the sun is

An ellipse has a minor axis of Iength 6 and the distance between its foci is 8 . Its equation 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

Find the equation fot the ellipse that satisfies the given conditions : Ends of major axis (0,+-sqrt(5)) , ends of minor axis (+-1,0)

The angle between the lines joining the foci of an ellipse to an extremity of the minor axis is 90^(circ) , then the eccentricity of the ellipse is