Find the length of focal radii drawn from the point `(4 sqrt(3),5)` on the ellipse `25x^(2) + 16y^(2) = 1600`

Find the equations of the tangents drawn from the point (2, 3) to the ellipse 9x^2+16 y^2=144.

Find the equations of the tangents drawn from the point (2, 3) to the ellipse 9x^2+16 y^2=144.

Find the equations of the tangents drawn from the point (2, 3) to the ellipse 9x^2+16 y^2=144.

The equation of the normal at the point P (2, 3) on the ellipse 9x^(2) + 16y^(2) = 180 , is

Find the length of perpendicular drawn from point (2,-1) to the line 3x+4y-11=0 .

If P is the length of perpendicluar drawn from the origin to any normal to the ellipse x^(2)/25+y^(2)/16=1 , then the maximum value of p is

Find the position of the point (4,-3) relative to the ellipse 5x^(2)+7y^(2)=140 .

Find the eccentricity, distance between the foci, equation of the directrices, and the length and coordinates of the ends of the latus rectum of the ellipse 25x^(2)+16y^(2)=400 .

Find the length and the foot of the perpendicular drawn from the point (2, -1,5) to the line (x -11)/10=(y + 2)/-4=(z+ 8)/-11

Find the length of the perpendicular drawn from point (2,3,4) to line (4-x)/2=y/6=(1-z)/3dot