Conditions for Diameter to be Perpendicular Bisector

Theorem
If in a circle a diameter bisects a chord (which is itself not a diameter), then it cuts it at right angles, and if it cuts it at right angles then it bisects it.

Proof

 * Euclid-III-3.png

Let $ABC$ be a circle, in which $AB$ is a chord which is not a diameter (i.e. it does not pass through the center).

First part
Let $CD$ be a diameter which bisects $AB$ at the point $F$.

Find the center $E$ of circle $ABC$, and join $EA$ and $EB$.

Because $E$ is the center, $EA = EB$.

Because $F$ bisects $AB$, $FA = FB$.

Also, $FE$ is common, so from Triangle Side-Side-Side Equality $\triangle AFE = \triangle BFE$.

From :

So $\angle AFE$ and $\angle BFE$ are both right angles.

Therefore the diameter $CD$ cuts $AB$ at right angles.

Second part
Let $CD$ be a diameter which cuts $AB$ at right angles at point $F$.

We using the same construction as above.

Because $E$ is the center, $EA = EB$.

From Isosceles Triangle has Two Equal Angles, $\angle EAF = \angle EBF$.

But $\angle AFE = \angle BFE$ because both are right angles.

As $EF$ is common, it follows from Triangle Side-Angle-Angle Equality that $\triangle AFE = \triangle BFE$.

Therefore $AF = FB$.

Hence the result.