The answer depends on what information you do have and what is missing. There is no single answer for all situations.
The intersection of the bisectors of the angles. (Sorry _ my original answer, the bisectors of the sides, was clearly wrong.)
4 sides are equal Diagonals are equal and Perp Bisectors Angles are right Consecutive and diagonal angles add up to 180.
Congruent (APEX) :P
Angle bisectors are.
Moderates
The intersection of the bisectors of the angles. (Sorry _ my original answer, the bisectors of the sides, was clearly wrong.)
The incentre, the point where the bisectors of the angles meet.
The bisectors of the angles of a triangle are concurrent at a point called the incentre which is also the centre of the inscribed circle that touches all three sides.
The centroid or centre of gravity. It will also be the point where the bisectors of the angles, and the perpendicular bisectors of the sides meet.
If it is a parallelogram, then it has two sets of parallelogram sides. Parallelograms' opposite angles are congruent A parallelogram's bisectors are congruent. * * * * * A parallelogram's bisectors are NOT congruent.
4 sides are equal Diagonals are equal and Perp Bisectors Angles are right Consecutive and diagonal angles add up to 180.
Only two, from the midpoints to midpoints of each of the two facing sides.
If two angle bisectors of a triangle are congruent, then the triangle is isosceles. This is because the angle bisectors of a triangle are concurrent and the angle bisectors of a triangle that are congruent divide the opposite sides of the triangle into two equal segments. So if two angle bisectors are congruent, the sides opposite those angles are also equal, making the triangle isosceles.
Congruent (APEX) :P
When yo connect the midpoints of THE SIDES OF squares you get a square.
Angle bisectors intersect at the incenter which is equidistant from the sides
a midsegment