[Math] Finding the Equation for the Line Tangent to a Parabola At a Given Point

Question

The question is as follows:

Verify that the point $A = (8, \frac{25}3)$ lies on the parabola whose focus is (0, 6) and whose directrix is the x-axis. Find an equation for the line that is tangent to the parabola at A.

I was able to verify that the point A lies on the parabola–the simplified equation which I got to be $\frac{x^2}{12} + 3 = y$. However, I am unable to find the equation of the tangent line. I know that the intersection point has to be at A, but I don't know how to find the slope of the line. Any help will be greatly appreciated.

As a side note, I would like it if someone can provide any help without the direct usage of derivatives. Although I am aware that derivatives can be helpful in solving these types of problem, I can't use it because I haven't learned about it in class yet. Thank you.

Answer 1

With recourse to this diagram:

it can be seen that the line through the focus and the projection of the given point onto the directrix is perpendicular to the tangent to the given point. Here, these two important points are $(0,6)$ and $(8,0)$ respectively and the line through them has slope $\frac{-6}8=-\frac34$. So the tangent we seek has slope $\frac43$.

Now it remains to solve $\frac{25}3=\frac43\cdot8+c$ for $c$, and it turns out to be $-\frac73$. So the tangent of the parabola at $A$ has equation $3y=4x-7$.