Latus Rectum is `4 and e=(1)/sqrt(2)` axes are co­ordinate axes, eq. of the ellipse

If length of the major axis is 8 and e = 1/sqrt(2) Axes are co-ordinate axes then equation of the ellipse is

An ellipse drawn by taking a diameter of the circle (x-1)^(2)+y^(2)=1 as its semiminor axis and a diameter of the circle x^(2)+(y-2)^(2)=4 as its semi-major axis. If the centre of the ellipse is at the origin and its axes are the coordinate axes, then the equation of the ellipse is

The centre of a ellipse where axes is parllel to co-ordinate axes is (2, -1) and the semi axes are sqrt(3)/(2),1/2 The equation of the ellipse is

The least intercept made by the coordinate axes on a tangent to the ellipse (x^(2))/(64)+(y^(2))/(49)=1 is

If centre (1, 2), axes are parallel to co-ordinate axes, distance between the foci 8, e = (1)/sqrt(2) then equation of the ellipse is

Find the equation of the ellipes referred to its major and minor axes as the co-ordinate axes X, Y- respectively with latus rectum of length 4 and distance between foci 4sqrt2 .

Find the equation of the elipse referred to its major and minor axes as the coordinate axes x, y respectively with latus rectum of length 4 and the distance between foci 4sqrt2 .

Axes are co-ordinate axes, the ellipse passes through the points where the straight line (x)/(4)+(y)/(3)=1 meets the cood axes. Then equation of the ellipse is

The equation of the ellipse refered to its axes as coordinate axes, which passes through the points (2, 2) and (1, 4) is