Question

How do you find the points where the graph of `y^2+2y=4x^3−16x−1` is the tangent line vertical?

Answer 1

The coordinates of the points that have vertical tangents are at `(-2, -1)`, `(0, -1)`, and `(2, -1)`.

Explanation:

If

`y^2+2y=4x^3-16x-1`

Then by implicit differentiation we have

`2y(dy)/(dx)+2(dy)/(dx)=12x^2-16`.

Now we can solve for (dy)/(dx).

`(dy)/(dx)=(12x^2-16)/(2y+2)`

The tangent line will be vertical when `(dy)/(dx)` becomes infinite. This will happen when

`2y+2=0`.

So the tangent line will be vertical when `y=-1`.

Now we need to calculate the `x`-coordinate(s) when `y=-1`. Our equation becomes

`(-1)^2+2(-1)=-1=4x^3-16x-1`.

`4x^3-16x=0`

`4x(x^2-4)=4x(x-2)(x+2)=0`

This equation has three solutions. They are `x=-2`, `x=0`, and `x=2`. We note that all of these values makes `12x^2-16` (the numerator of our expression for the derivative) finite so all of these `x`-values have vertical tangents. So the coordinates of the points that have vertical tangents are at `(-2, -1)`, `(0, -1)`, and `(2, -1)`.

Of course, looking at an actual plot of our relation (this is NOT a function) confirms that we have the correct answer.