Find the maximum distance of any normal ...

Find the maximum distance of any normal of the ellipse `x^2/a^2 + y^2/b^2=1` from its centre,

Text Solution

Verified by Experts

Normally to ellipse `(x^(2))/(a^(2))+(y^(2))/(b^(2))=1` at point `P(a cos theta, b sin theta)` is `(ax)/(cos theta)-(by)/(sin theta)=a^(2)-b^(2)`
Its distance from origin is
`d=(|a^(2)-b^(2)|)/(sqrt(a^(2)sec^(2)theta+b^(2)"cosec"^(2)theta))`
`d=(|a^(2)-b^(2)|)/(sqrt(a^(2)+b^(2)+a^(2)tan^(2)theta+b^(2)cot^(2)theta))`
`d=(|a^(2)-b^(2)|)/(sqrt(a^(2)+b^(2)+2ab+(atan theta-bcottheta)^(2)))`
`d=(|a^(2)-b^(2)|)/(sqrt(a^(2)+b^(2)+2ab))`
`:. d_("max")=a-b)`

Similar Questions

Explore conceptually related problems

If the maximum distance of any point on the ellipse x^2+2y^2+2x y=1 from its center is r , then r is equal to

The sum of distance of any point on the ellipse 3x^2 + 4y^2 = 24 from its foci is

Find the maximum distance of any point on the curve x^2+2y^2+2x y=1 from the origin.

Find the area of the ellipse (x^2)/(a^2)+(y^2)/(b^2)=1 .

The maximum distance of the centre of the ellipse (x^(2))/(16) +(y^(2))/(9) =1 from the chord of contact of mutually perpendicular tangents of the ellipse is

Let d be the perpendicular distance from the centre of the ellipse x^2/a^2+y^2/b^2=1 to the tangent drawn at a point P on the ellipse. If F_1 & F_2 are the two foci of the ellipse, then show the (PF_1-PF_2)^2=4a^2[1-b^2/d^2] .

Find the equation of the normal to the ellipse (x^2)/(a^2)+(y^2)/(b^2)=1 at the positive end of the latus rectum.

Find the sum of the focal distances of any point on the ellipse 9x^2+16 y^2=144.

Sum of the focal distance of the ellipse (x^2)/(a^2) + (y^2)/(b^2) = 1 is

Find the maximum area of the ellipse (x^2)/(a^2)+(y^2)/(b^2)=1 which touches the line y=3x+2.

Find the maximum distance of any normal of the ellipse `x^2/a^2 + y^2/b^2=1` from its centre,

Text Solution

Similar Questions

Recommended Questions