Find the equation of the ellipse whose length of major axis is `4` and length of latus rectum is `2`.

Taking major and minor axes as x and y -axes respectively, find the equation of the ellipse whose lengths of minor axis and latus rectum are 4 and 2 .

Find the equation of the ellipse, whose length of the major axis is 20 and foci are (0,+-5)

Taking major and minor axes as x and y - axes respectively , find the equation of the ellipse whose eccentricity is (1)/(sqrt(2)) and length of latus rectum 3 .

Taking the major and minor axes as the axes of coordinates , find the equation of the ellipse whose length of minor axis is 10 and distance between the f oci is 24

Taking major and minor axes along y and x-axes, find the equation of the ellipse whose length of minor axis is 2 and the distance between the foci is sqrt(5)

Taking the major and minor axes as the axes of coordinates, find the equation of the ellipse whose length of latus rectum is 8 and length of semi - major axis is 9

Taking major and minor axes as x and y -axes respectively, find the equation of the ellipse whose lengths of major and minor axes are 6 and 5 respectively .

Taking major and minor axes along y and x-axes, find the equation of the ellipse whose eccentricity sqrt((3)/(7)) and the length of latus rectum (8)/(sqrt(7))

Taking the major and minor axes as the axes of coordinates, find the equation of the ellipse whose lengths of major and minor axes are 6 and 3 respectively

Taking major and minor axes as x and y - axes respectively , find the equation of the ellipse whose eccentricity is sqrt((2)/(3)) and the length of semi-latus rectum is 2 unit