Answer to Question #124548 in Geometry for Max

equation of ellipse x²/a² + y²/b² = 1

we have points P(acos"\\theta" , bsin"\\theta" )

put the points in the equation of ellipse

take L.H.S

(acos"\\theta" )²/a² + (bsin"\\theta" )²/b²

a²cos²"\\theta" /a² + b²sin²"\\theta"/b²

cos²"\\theta" + sin²"\\theta"

=1

hence these point are lies on the ellipse

the equation of normal is at p is ax sin"\\theta" − by cos"\\theta" = (a² − b²) sin"\\theta" cos"\\theta"

the gradient of the equation is dy/dx

so the gradient is

a sin"\\theta" {dy/dx(x)} - by cos"\\theta" {dy/dx(1)} =(a²-b²)sin"\\theta" cos"\\theta" {dy/dx(1)}

asin"\\theta" - 0 = 0

asin"\\theta" = 0 is the gradient of the tangent to the curve at P

equation of normal is

ax sin"\\theta" - by cos"\\theta" = (a²-b²)sin"\\theta" cos"\\theta"

at point B(0,b)

a (0) sin"\\theta" - b (b)cos"\\theta" =(a²-b²)sin"\\theta" cos"\\theta"

0-b²cos"\\theta" =(a²-b²)sin"\\theta" cos"\\theta"

hence a² > 2b²

if the tangent P meets the y axis at Q

than |BQ| = a²/b²

the point B (0,b) similarly at y axis the point Q (a,0)

so the the point BQ(a,b)

hence |BQ| = a²/b²