# Condition for Line Tangent to the Ellipse

The condition for a line $y = mx + c$ to be the tangent to the ellipse $\frac{{{x^2}}}{{{a^2}}} + \frac{{{y^2}}}{{{b^2}}} = 1$is that $c = \pm \sqrt {{a^2}{m^2} + {b^2}}$ and the tangent to the ellipse is $y = mx \pm \sqrt {{a^2}{m^2} + {b^2}}$.

Consider the equation of a line is represented by

Consider that the standard equation of an ellipse with vertex at origin $\left( {0,0} \right)$ can be written as

To find the point of intersection of a straight line (i) and the given ellipse (ii), using the method of solving simultaneous equations we solve equation (i) and equation (ii). Putting the value of $y$ from equation (i) in equation (ii), we have

If equation (iii) has equal roots, then the line equation (i) will intersect the ellipse (ii) at one point only and thus is the tangent to the ellipse.

For equal roots, we have

Putting these values of $c$ in the equation of a straight line (i), we have

These are the tangents to the ellipse as shown in the given diagram.